International Conference on Gravitational Waves and Cosmological Studies

Introduction of the conferences

Gravitational Waves  is a prestigious scientific conference that takes place every two years and is organized by the International Society on General Relativity and Gravitation (ISGRG) and the International Astronomical Union (IAU). The conference brings together leading scientists, researchers and experts in the field of gravitational waves from around the world to discuss the latest developments and findings in the field. The conference focuses on a wide range of topics related to gravitational waves, including the theory of general relativity, the detection of gravitational waves, astrophysical sources of gravitational waves, and the implications of gravitational wave observations for astrophysics and cosmology. At the conference, participants present their research through oral and poster presentations, plenary sessions, and panel discussions.

Theme

"Exploring the Advancements in Gravitational Waves"

Call for Abstract/paper
Original Articles/papers are invited from Industry Persons, Scientist, Academician, Research Scholars, P.G. & U.G. Students for presentation in our International Conference. All articles/papers must be in MS-Word (.doc or .docx) format, including the title, author's name, an affiliation of all authors, e-mail, abstract, keywords, Conclusion, Acknowledgment, and References.

Submit Abstract

The Candidates with eligibility can click the "Submit Paper/Abstract Now" button and fill up the online submission form and Submit.

 Abstract/Full Paper Submission

Final/Full Paper submission is optional: If you don't want your abstract/full paper to be published in the Conference Abstracts & Proceedings CD (with ISBN number) and only want to present it at the conference, it is acceptable.

Page limit: There is a limit of 6-8 pages for a final/full paper. An additional page is chargeable.

Paper language: Final/Full papers should be in English.

Templates: "Final paper template," "Final abstract template"

All the final papers should be uploaded to the website online system according to "the final paper template" as word doc. Or Docx, since this will be the camera-ready published version. Please note that final papers that are not uploaded to online System as a word doc./docx after the opening of final paper submissions according to the template above will not be published in the CONFERENCE Abstracts & Proceedings CD (with ISBN)

 Journal Publication

Gravitational Conferences All accepted papers will be included in the conference proceedings, which will be recommended in one of the author's prescribed ScienceFather International journals.

Date and Location

24-25 September 2023 | Mumbai, India

19-20 October 2023 | Paris, France

26-27 November 2023 | Agra,  India

07-08 December 2023 | Dubai, United Arab Emirates

Registration Procedure

• Click the “Register Now” button on the conference page and enter your Submission ID in the Search Box
• Your Submissions will be listed on that page. You can find the Register Now link beside your submission. Click the link, and now you will be redirected to the Conference registration form where you can make your registration using credit/debit cards.
• The Fee charged for E-Poster is to display the E-Posters only on the Website. The Abstract will be published in the conference proceeding book.

Registration Types

Speaker Registration

• Access to all event Session
• Certificate of Presentation
• Handbook
• Conference Kit
• Tea, Coffee & Snack,
• Lunch during the Conference
• Publication of Abstract /Full Paper at the Conference Proceedings Book
• Opportunity to give a Keynote/ Poster Presentations/ Plenary/ Workshop
• Opportunity to publish your Abstract in any of our esteemed Journals discounted rate
• Opportunity to publish your full article in our open access book at a discounted rate
• One to One Expert Forums

Delegate (Participant) Registration

• Access to all Event Sessions
• Participation Certificate
• Handbook
• Conference Kit
• Tea, Coffee & Snack,
• Lunch during the Conference
• Delegates are not allowed to present

Poster Registration

• Includes all the above Registration Benefits
• You will have to bring your Posters to the Conference Venue
• Best poster award memento and certificate on stage.

Poster Guidelines

• The poster should be 1×1 m Size.
• The title, contents, text, and the author’s information should be visible.
• Present numerical data in the form of graphs rather than tables.
• Figures make trends in the data much more evident.
• Avoid submitting high word-count posters.
• Poster contains, e.g., Introduction, Methods, Results, Discussion, Conclusions, and Literature.

Research Forum (Awards)

• Includes all the above Registration Benefits.
• The attendee should be required age limit.
• Award memento and certificate on stage.

E-Poster Presentation

• The amount charged for E-Posters is to display the E-Posters only on the website
• The presenter will get an e-poster participation certificate as a soft copy
• The abstract will be published in the particular journal and also in the conference proceeding book
• The presenter is not required to be present in person at the Conference

Video Presentation

• The amount charged for Video Presentation is to display the Presentation at the Conference.
• The presenter will get Video participation certificate as a soft copy
• The abstract will be published in the particular journal and also in the conference proceeding book
• The presenter is not required to be present in person at the Conference

Accompanying Person

• Accompanying Persons attend the participants at the Conference who may be either a spouse/family partner or a son/daughter and must register under this category.
• Please note that business partners do not qualify as Accompanying Persons and cannot register as an Accompanying Person.

Committee Members

Details of Conference Awards

ScienceFather awards Researchers and Research organizations around the world with the motive of Encouraging and Honoring them for their Significant contributions & Achievements for the Advancement in their field of expertise. Researchers and scholars of all nationalities are eligible to receive ScienceFather Research awards. Nominees are judged on past accomplishments, research excellence, and outstanding academic achievements.

Award Categories

Best Poster Award

Posters will be evaluated based on Presentation Style, Research Quality, and Layout/Design. Unique opportunity to combine visual and oral explanations of your projects in the form of poster presentation. Posters should have the Title (with authors affiliation & contact details), Introduction, Methods, Results (with tables, graphs, pictures), Discussion, Conclusion, References, and Acknowledgements. The size of the poster should be: 1mX1.5m; Text:16-26 pt; Headings: 32-50 pt; Title: 70 pt; Color: Preferable. Bring your poster to the meeting, using tubular packaging and presenting duration: 10 min discussion & 5 min query per person. Eligibility: The presenter can nominate the Award. He must be under 40 years of age as on the conference date.

Best Presentation Award

The presentation will be evaluated based on Presentation Style, Research Quality, and Layout/Design. Unique opportunity to combine visual and oral explanations of your projects in the form of poster presentations. The presentation should have the Title (with authors affiliation & contact details), Introduction, Methods, Results (with tables, graphs, pictures), Discussion, Conclusion, References, and Acknowledgements. Bring your presentation to the meeting, using a pen drive, presenting duration: 10-20 min discussion & 5 min query per person. Eligibility: The presenter can nominate the Award. He must be under 55 years of age as of the conference date.

Best Paper Award

Paper will be evaluated based on Format, Research Quality, and Layout/Design. The paper should have the Title (with authors affiliation & contact details), Introduction, Methods, Results (with tables, graphs, pictures), Discussion, Conclusion, References, and Acknowledgements. Eligibility: The presenter can nominate the Award. He must be under 55 years of age as of the conference date.

Instructions for submission

If you want to submit only your Abstract

• If you want to publish only your abstract (it is also optional) in the CONFERENCE Abstracts & Proceedings CD (with ISBN), upload your abstract again according to the final abstract template as a word doc. Or Docx.
• If you also don't want your abstract to be published in the CONFERENCE Abstracts & Proceedings CD (with an ISBN) and only want to present it at the conference, it is also acceptable.

How to Submit your Abstract / Full Paper

Please read the instructions below then submit your Abstract/ Full Paper (or just final abstract) via the online conference system:

• STEP 1: Please download the Abstract /Final Paper Template and submit your final paper strictly according to the template: Welding Technology Conference Final Paper Template in word format (.doc /.docx). See a final abstract template formatted according to the template.
• STEP 2: Please ensure that the Abstract/ full paper follows exactly the format and template described in the final paper template document below since this will be the camera-ready published version. All last articles should be written only in English and "word document" as .doc or .docx.
• STEP 3: You can submit your final paper(s) to the online conference system only by uploading/ Re-submission your current submission.
• STEP 4: After logging/using submission ID in the online conference system, click on the "Re-submission" link at the bottom of the page.
• STEP 5: After the "Resubmission page" opens, upload your abstract/ final paper (it should be MS word document -doc. or Docx-).

General Information

• Dress Code: Participants have to wear a formal dress. There are no restrictions on color or design. The audience attending only the ceremony can wear clothing of their own choice.
• Certificate Distribution: Each presenter's name will be called & asked to collect their certificate on the Stage with an official photographer to capture the moments.

ScienceFather Terms & Conditions

Gravitational Conferences Terms & Conditions Policy was last updated on June 25, 2022.

Privacy Policy

Gravitational waves conferences customer personal information for our legitimate business purposes, process and respond to inquiries, and provide our services, to manage our relationship with editors, authors, institutional clients, service providers, and other business contacts, to market our services and subscription management. We do not sell, rent/ trade your personal information to third parties.

Relationship

Gravitational Waves Conference Operates a Customer Association Management and email list program, which we use to inform customers and other contacts about our services, including our publications and events. Such marketing messages may contain tracking technologies to track subscriber activity relating to engagement, demographics, and other data and build subscriber profiles.

Disclaimer

Gravitational Waves All editorial matter published on this website represents the authors' opinions and not necessarily those of the Publisher with the publications. Statements and opinions expressed do not represent the official policies of the relevant Associations unless so stated. Every effort has been made to ensure the accuracy of the material that appears on this website. Please ignore, however, that some errors may occur.

Responsibility

Gravitational Delegates are personally responsible for their belongings at the venue. The Organizers will not be held accountable for any stolen or missing items belonging to Delegates, Speakers, or Attendees; due to any reason whatsoever.

Insurance

Gravitational waves conferences Registration fees do not include insurance of any kind.

Press and Media

Press permission must be obtained from the Gravitational Waves conferences Organizing Committee before the event. The press will not quote speakers or delegates unless they have obtained their approval in writing. This conference is not associated with any commercial meeting company.

Transportation

Gravitational Waves Conferences Please note that any (or) all traffic and parking is the registrant's responsibility.

Requesting an Invitation Letter

Gravitational Waves Conferences For security purposes, the invitation letter will be sent only to those who had registered for the conference. Once your registration is complete, please contact gravity@sfconfernces.com to request a personalized letter of invitation.

Cancellation Policy

If Gravitational Conferences cancels this event, you will receive a credit for 100% of the registration fee paid. You may use this credit for another Gravitational Waves Conferences event, which must occur within one year from the cancellation date.

Postponement Policy

Suppose Gravitational Conferences postpones an event for any reason and you are unable or indisposed to attend on rescheduled dates. In that case, you will receive a credit for 100% of the registration fee paid. You may use this credit for another Gravitational waves Conferences, which must occur within one year from the date of postponement.

Transfer of registration

Gravitational Waves Conferences All fully paid registrations are transferable to other persons from the same organization if the registered person is unable to attend the event. The registered person must make transfers in writing to gravity@sfconferences.com. Details must include the full name of an alternative person, their title, contact phone number, and email address. All other registration details will be assigned to the new person unless otherwise specified. Registration can be transferred to one conference to another conference of Sfconferences if the person cannot attend one of the meetings. However, Registration cannot be transferred if it will be intimated within 14 days of the particular conference. The transferred registrations will not be eligible for Refund.

Visa Information

Gravitational Conferences Keeping given increased security measures, we would like to request all the participants to apply for Visa as soon as possible. ScienceFather  will not directly contact embassies and consulates on behalf of visa applicants. All delegates or invitees should apply for Business Visa only. Important note for failed visa applications: Visa issues cannot come under the consideration of the cancellation policy of ScienceFather, including the inability to obtain a visa.

Refund Policy

Gravitational waves Conferences Regarding refunds, all bank charges will be for the registrant's account. All cancellations or modifications of registration must make in writing to gravity@sfconferences.com

If the registrant is unable to attend and is not in a position to transfer his/her participation to another person or event, then the following refund arrangements apply:

Keeping given advance payments towards Venue, Printing, Shipping, Hotels and other overheads, we had to keep Refund Policy is as following conditions,

• Before 60 days of the Conference: Eligible for Full Refund less $100 Service Fee
• Within 60-30 days of Conference: Eligible for 50% of payment Refund
• Within 30 days of Conference: Not eligible for Refund
• E-Poster Payments will not be refunded.

Accommodation Cancellation Policy

Gravitational Waves Conferences Accommodation Providers such as hotels have their cancellation policies, and they generally apply when cancellations are made less than 30 days before arrival. Please contact us as soon as possible if you wish to cancel or amend your accommodation. ScienceFather will advise your accommodation provider's cancellation policy before withdrawing or changing your booking to ensure you are fully aware of any non-refundable deposits.

Sponsorship Details

Gravitational Waves Conferences warmly invite you to sponsor or exhibit of International Conference. We expect participants more than 200 numbers for our International conference will provide an opportunity to hear and meet/ads to Researchers, Practitioners, and Business Professionals to share expertise, foster collaborations, and assess rising innovations across the world in the core area .

Diamond Sponsorship

1. Acknowledgment during the opening of the conference
2. Complimentary Booth of size 10 meters square
3. Four (4) delegate’s complimentary registrations with lunch
4. Include marketing document in the delegate pack
5. Logo on Conference website, Banners, Backdrop, and conference proceedings
6. One exhibition stand (1×1 meters) for the conference
7. One full cover page size ad in conference proceedings
8. Opportunities for Short speech at events
9. Option to sponsors conference kit
10. Opportunity to sponsors conference lanyards, ID cards
11. Opportunity to sponsors conference lunch
12. Recognition in video ads
13. 150-word company profile and contact details in the delegate pack

Platinum Sponsorship

1. Three (3) delegate’s complimentary registrations with lunch
2. Recognition in video ads
3. Opportunity to sponsors conference lunch
4. Opportunity to sponsors conference lanyards, ID cards
5. Opportunity to sponsors conference kit
6. Opportunity for Short speech at events
7. One full-page size ad in conference proceedings
8. One exhibition stand (1×1 meters) for the conference
9. Logo on Conference website, Banners, Backdrop, and conference proceedings
10. Include marketing document in the delegate pack
11. Complimentary Booth of size 10 meters square
12. Acknowledgment during the opening of the conference
13. 100-word company profile and contact details in the delegate pack

Gold Sponsorship

1. Two (2) delegate’s complimentary registrations with lunch
2. Opportunities for Short speech at events
3. Logo on Conference website, Banners, Backdrop, and conference proceedings
4. Include marketing document in the delegate pack
5. Complimentary Booth of size 10 meters square
6. Acknowledgment during the opening of the conference
7. 100-word company profile and contact details in the delegate pack
8. ½ page size ad in conference proceedings

Silver Sponsorship

1. Acknowledgment during the opening of the conference
2. One(1) delegate’s complimentary registrations with lunch
3. Include marketing document in the delegate pack
4. Logo on Conference website, Banners, Backdrop, and conference proceedings
5. ¼ page size ad in conference proceedings
6. 100-word company profile and contact details in the delegate pack

Individual Sponsorship

1. Acknowledgment during the opening of the conference
2. One(1) delegate’s complimentary registrations with lunch

Registration Fees

Exhibitions Details

Exhibit your Products & Services

Exhibit your Products & Services at Gravitational Waves Conferences. Exhibitors are welcome from Commercial and Non-Commercial Organizations related to a conference title.

• The best platform to develop new partnerships & collaborations.
• Best location to speed up your route into every territory in the World.
• Our exhibitor booths were visited 4-5 times by 80% of the attendees during the conference.
• Network development with both Academia and Business.

Exhibitor Benefits

• Exhibit booth of Size-3X3 sqm.
• Promotion of your logo/Company Name/Brand Name through the conference website.
• Promotional video on company products during the conference (Post session and Breaks).
• Logo recognition in the Scientific program, Conference banner, and flyer.
• One A4 flyer inserts into the conference kit.
• An opportunity to sponsor 1 Poster Presentation Award.

Conference Session Tracks

Introduction to Gravitational Waves  |  Special Relativity and General Relativity |  Linearized Theory of Gravitational Waves | Generation of Gravitational Waves  |  Detection of Gravitational Waves  |  Signal Analysis  |  Astrophysical Applications  |  Multi-Messenger Astronomy |  Future Prospects  |  Societal Impacts| General relativity |  Special relativity |  Tensor calculus  |  Black holes |  Neutron stars  |  LIGO (Laser Interferometer Gravitational-wave Observatory) |  Virgo |  Gravitational wave sources | Gravitational wave data analysis: |  Gravitational wave cosmology

Target Countries

Afghanistan|  Albania| Algeria | Andorra | Angola| Antigua and Barbuda|  Argentina|  Armenia| Australia|  Austria|  Azerbaijan|  Bahamas|  Bahrain|  Bangladesh| Barbado|  Belarus| Belgium|  Belize|  Benin|  Bhutan| Bolivia|  Bosnia and Herzegovina|  Botswana|  Brazil|  Brunei|  Bulgaria|  Burkina Faso|  Burundi|  Cabo Verde|  Cambodia|  Cameroon|  Canada|  Central African Republic|  Chad| Chile|  China|  Colombia|  Comoros| Democratic Republic of the Congo|  Republic of the Congo| Costa Rica|  Cote d'Ivoire|  Croatia| Cuba|  Cyprus| Czech Republic|  Denmark|  Djibouti| Dominica| Dominican Republic|  Ecuador|  Egypt|  El Salvador|  Equatorial Guinea|  Eritrea| Estonia| Eswatini| Ethiopia|  Fiji|  Finland|  France| Gabon| Gambia|  Georgia| Germany|  Ghana| Greece|  Grenada| Guatemala|  Guinea|  Guinea-Bissau|  Guyana|  Haiti| Honduras|  Hungary|  Iceland|  India|  Indonesia|  Iran|  Iraq|  Ireland|  Israel|  Italy|  Jamaica|  Japan|  Jordan|  Kazakhstan| Kenya|  Kiribati|  Kosovo|  Kuwait|  Kyrgyzstan|  Laos|  Latvia|  Lebanon|  Lesotho|  Liberia| Libya|  Liechtenstein| Lithuania| Luxembourg| Madagascar|  Malawi|  Malaysia| Maldives|  Mali|  Malta|  Marshall Islands|  Mauritania|  Mauritius|  Mexico|  Micronesia|  Moldova|  Monaco|  Mongolia|  Montenegro|  Morocco|  Mozambique|  Myanmar (Burma)|  Namibia|  Nauru|  Nepal|  Netherlands|  New Zealand| Nicaragua|  Niger|  Nigeria|  North Korea|  North Macedonia|  Norway|  Oman|  Pakistan|  Palau|  Panama|  Papua New Guinea|  Paraguay|  Peru|  Philippines|  Poland|  Portugal|  Qatar|  Romania|  Russia| Rwanda|  Saint Kitts and Nevis|  Saint Lucia|  Saint Vincent and the Grenadines|  Samoa|  San Marino|  Sao Tome and Principe|  Saudi Arabia|  Senegal|  Serbia|  Seychelles|  Sierra Leone|  Singapore|  Slovakia|  Slovenia|  Solomon Islands|  Somalia|  South Africa|  South Korea|  South Sudan|  Spain| Sri Lanka|  Sudan|  Suriname|  Sweden|  Switzerland| Syria|  Taiwan|  Tajikistan|  Tanzania|  Thailand| Timor-Leste|  Togo|  Tonga|  Trinidad and Tobago| Tunisia| Turkey| Turkmenistan| Tuvalu| Uganda|  Ukraine|  United Arab Emirates|United Kingdom| United States|  Uruguay|  Uzbekistan|  Vanuatu| Vatican City| Venezuela| Vietnam| Yemen|  Zambia|  Zimbabwe.

Popular Books

1. Gravitation by Charles W. Misner, Kip S. Thorne, and John Archibald Wheeler, W.H. Freeman; 1st Edition (1973) | 2. The Detection of Gravitational Waves by David Blair, Cambridge University Press; 1st Edition (1991) | 3. Gravitational Waves: Volume 1: Theory and Experiments by Michele Maggiore, Oxford University Press; 1st Edition (2007) | 4. Gravitational Waves: Volume 2: Astrophysics and Cosmology by Michele Maggiore, Oxford University Press; 1st Edition (2008) | 5. The First Hundred Years of General Relativity: Volume 4: Gravitation in the Twilight of Classical Physics by Abhay Ashtekar, Vesselin Petkov, Springer; 1st Edition (2015) | 6. Exploring Black Holes: Introduction to General Relativity by Edwin F. Taylor and John Archibald Wheeler, Addison-Wesley; 1st Edition (2000) | 7. Gravitational Waves: A New Window to the Universe by B. Sathyaprakash, Bernhard F. Schutz, World Scientific Publishing Company; 1st Edition (2017) | 8. Relativistic Astrophysics and Cosmology: A Primer by Peter Schneider, Springer; 1st Edition (2006) | 9. Black Holes and Time Warps: Einstein\'s Outrageous Legacy by Kip S. Thorne, W. W. Norton & Company; 1st Edition (1994) | 10. Gravity: An Introduction to Einstein\'s General Relativity by James B. Hartle, Addison-Wesley; 1st Edition (2003) | 11. The Detection of Gravitational Waves by David Blair, Cambridge University Press; 2nd Edition (2020) | 12. Gravitational Waves: How Einstein\'s Spacetime Ripples Reveal the Secrets of the Universe by Brian Clegg, Icon Books; 1st Edition (2017) | 13. Black Holes and Relativistic Stars by Ramesh Narayan, Cambridge University Press; 1st Edition (1998) | 14. The Quantum Universe: (And Why Anything That Can Happen, Does) by Brian Cox and Jeff Forshaw, Da Capo Press; 1st Edition (2012) | 15. Gravitational Waves: Sources, Detectors and Searches by Bernard F. Schutz, Springer; 1st Edition (2011) | 16. Introduction to General Relativity and Cosmology by Christian G. Böhmer, Springer; 1st Edition (2012) | 17. The Theory of General Relativity: An Introduction by Norbert Straumann, Springer; 1st Edition (2013) | 18. The First Three Minutes: A Modern View of the Origin of the Universe by Steven Weinberg, Basic Books; 1st Edition (1977) | 19. Black Holes, White Dwarfs, and Neutron Stars: The Physics of Compact Objects by Stuart L. Shapiro and Saul A. Teukolsky, John Wiley & Sons; 1st Edition (1983) | 20. Gravitational Waves: Volume 3: Astrophysics and Cosmology by Michele Maggiore, Oxford University Press; 1st Edition (2019) | 21. The Geometry of Kerr Black Holes by Barrett O\'Neill, Dover Publications; 1st Edition (2015) | 22. The Large Scale Structure of Space-Time | | 23. Spacetime and Geometry: An Introduction to General Relativity by Sean Carroll, Addison-Wesley; 1st Edition (2003) | 24. Gravity\'s Fatal Attraction: Black Holes in the Universe by Mitchell Begelman and Martin Rees, Cambridge University Press; 1st Edition (1996) | 25. The Road to Reality: A Complete Guide to the Laws of the Universe by Roger Penrose, Vintage Books; 1st Edition (2004) | 26. Black Holes and Time Warps: Einstein\'s Outrageous Legacy by Kip S. Thorne, W. W. Norton & Company; 2nd Edition (2018) | 27. General Relativity by Robert M. Wald, University of Chicago Press; 1st Edition (1984) | 28. The Universe in a Nutshell by Stephen Hawking, Bantam Books; 1st Edition (2001) | 29. Gravitational Waves and Cosmology: An Introduction to Theory, Experiment and Data Analysis by Michele Maggiore, Springer; 1st Edition (2020) | 30. Einstein\'s Dreams by Alan Lightman, Vintage Books; 1st Edition (1993) | 31. Relativity: The Special and the General Theory by Albert Einstein, Crown Publishers; 1st Edition (1920) | 32. The Singular Universe and the Reality of Time: A Proposal in Natural Philosophy by Roberto Mangabeira Unger and Lee Smolin, Cambridge University Press; 1st Edition (2014) | 33. Black Hole Blues and Other Songs from Outer Space by Janna Levin, Knopf; 1st Edition (2016) | 34. A First Course in General Relativity by Bernard F. Schutz, Cambridge University Press; 2nd Edition (2009) | 35. Gravitational Waves: Volume 4: Astrophysics and Cosmology by Michele Maggiore, Oxford University Press; 1st Edition (2021) | 36. The Science of Interstellar by Kip S. Thorne, W. W. Norton & Company; 1st Edition (2014) | 37. The Shape of Inner Space: String Theory and the Geometry of the Universe\'s Hidden Dimensions by Shing-Tung Yau and Steve Nadis, Basic Books; 1st Edition (2010) | 38. Gravitation and Cosmology: Principles and Applications of the General Theory of Relativity by Steven Weinberg, John Wiley & Sons; 1st Edition (1972) | 39. The Einstein Theory of Relativity: A Trip to the Fourth Dimension by Lillian Lieber and Hugh Gray Lieber, Paul Dry Books; 1st Edition (2008) | 40. The Quantum Story: A History in 40 Moments by Jim Baggott, Oxford University Press; 1st Edition (2011) | 41. General Relativity and Gravitation: A Centennial Perspective by Abhay Ashtekar, Beverly K. Berger, and James Isenberg, Cambridge University Press; 1st Edition (2015) | 42. Einstein\'s Telescope: The Hunt for Dark Matter and Dark Energy in the Universe by Evalyn Gates, W. W. Norton & Company; 1st Edition (2009) | 43. Gravity and Gravitation: Derivation of the Einstein Field Equation by Richard Talman, Springer; 1st Edition (2011) | 44. The Universe in a Helium Droplet by Grigory E. Volovik, Oxford University Press; 1st Edition | 45. Gravitation and Cosmology: Principles and Applications of the General Theory of Relativity by Steven Weinberg, John Wiley & Sons; 1st Edition (1972) | 46. The Einstein Theory of Relativity: A Trip to the Fourth Dimension by Lillian Lieber and Hugh Gray Lieber, Paul Dry Books; 1st Edition (2008) | 47. The Quantum Story: A History in 40 Moments by Jim Baggott, Oxford University Press; 1st Edition (2011) | 48. General Relativity and Gravitation: A Centennial Perspective by Abhay Ashtekar, Beverly K. Berger, and James Isenberg, Cambridge University Press; 1st Edition (2015) | 49. Einstein\'s Telescope: The Hunt for Dark Matter and Dark Energy in the Universe by Evalyn Gates, W. W. Norton & Company; 1st Edition (2009) | 50. Gravity and Gravitation: Derivation of the Einstein Field Equation by Richard Talman, Springer; 1st Edition (2011) | 51. The Universe in a Helium Droplet by Grigory E. Volovik, Oxford University Press; 1st Edition (2003) | 52. Astronomy and Astrophysics in the New Millennium by Richard B. Larson and Volker Bromm, Springer; 1st Edition (2010) | 53. Gravitational Waves: How Einstein\'s Spacetime Ripples Reveal the Secrets of the Universe by Brian Clegg, Icon Books; 1st Edition (2017) | 54. Gravity\'s Ghost: Scientific Discovery in the Twenty-first Century by Harry Collins, University of Chicago Press; 1st Edition (2011) | 55. Gravitational Waves: A New Window onto the Universe by Daniel Kennefick, Oxford University Press; 1st Edition (2018) | 56. Gravitational Waves: Sources, Detectors and Searches by Bernard F. Schutz and Benjamin F. Whiting, Springer; 1st Edition (2018) | 57. Einstein\'s Unfinished Symphony: Listening to the Sounds of Space-Time by Marcia Bartusiak, The Experiment; 1st Edition (2017) | 58. The Hunt for Gravitational Waves: A Scientific Adventure by Sean Carroll, Dava Sobel, and Neil deGrasse Tyson, W. W. Norton & Company; 1st Edition (2021) | 59. Exploring Black Holes: Introduction to General Relativity by Edwin F. Taylor and John Archibald Wheeler, Addison-Wesley; 1st Edition (2000) | 60. Gravity\'s Engines: How Bubble-Blowing Black Holes Rule Galaxies, Stars, and Life in the Cosmos by Caleb Scharf, Scientific American/Farrar, Straus and Giroux; 1st Edition (2012) | 61. Introduction to General Relativity, Black Holes, and Cosmology by Yvonne Choquet-Bruhat, Oxford University Press; 1st Edition (2009) | 62. The Large Hadron Collider: The Extraordinary Story of the Higgs Boson and Other Stuff That Will Blow Your Mind by Don Lincoln, Johns Hopkins University Press; 1st Edition (2014) | 63. Cosmic Odyssey: How Intrepid Astronomers at the Edge of the Universe Changed Our Understanding of the Cosmos by Bob Berman, Little, Brown Spark; 1st Edition (2021) | 64. Spacetime and Geometry: An Introduction to General Relativity by Sean Carroll, Pearson; 1st Edition (2003) | 65. Black Hole Blues and Other Songs from Outer Space by Janna Levin, Knopf; 1st Edition (2016) | 66. The Physics of the Universe by Frank S. Crawford Jr., CRC Press; 1st Edition (1994) | 67. Gravity\'s Fatal Attraction: Black Holes in the Universe by Mitchell Begelman and Martin Rees, Cambridge University Press; 1st Edition (1996) | 68. Introduction to the Theory of Black Holes by Valeri P. Frolov and Andrei Zelnikov, Oxford University Press; 1st Edition (2011) | 69. An Introduction to the Science of Cosmology by Derek Raine and Edwin Thomas, CRC Press; 1st Edition (2001) | 70. The Attraction of Gravitation: New Studies in the History of General Relativity by Jürgen Renn, Springer; 1st Edition (2017) | 71. Gravity from the Ground Up: An Introductory Guide to Gravity and General Relativity by Bernard F. Schutz, Cambridge University Press; 1st Edition (2003) | 72. General Relativity and Cosmology: A Primer by Narlikar Jayant and Naresh Dadhich, World Scientific; 1st Edition (1986) | 73. The Early Universe by Edward Kolb and Michael Turner, Westview Press; 1st Edition (1994) | 74. Black Holes, White Dwarfs, and Neutron Stars: The Physics of Compact Objects by Stuart Shapiro and Saul Teukolsky, John Wiley & Sons; 1st Edition (1983) | 75. Gravitational Waves: A Primer by Luc Blanchet and Alessandra Buonanno, Cambridge University Press; 1st Edition (2019) | 76. Theoretical Astrophysics: Volume 3, Galaxies and Cosmology by T. Padmanabhan, Cambridge University Press; 1st Edition (2002) | 77. Introduction to Black Hole Astrophysics by Gustavo E. Romero, Springer; 1st Edition (2014) | 78. Gravitational Waves: Volume 2: Astrophysics and Cosmology by Michele Maggiore, Oxford University Press; 1st Edition (2018) | 79. The Hidden Reality: Parallel Universes and the Deep Laws of the Cosmos by Brian Greene, Knopf; 1st Edition (2011) | 80. The Theory of Relativity: And Other Essays by Albert Einstein, Citadel; Reprint Edition (2011) | 81. Exploring the Universe by George O. Abell, Paul W. Aucheincloss, and David Morrison, Freeman; 2nd Edition (1995 | 82. A First Course in General Relativity by Bernard Schutz, Cambridge University Press; 2nd Edition (2009) | 83. General Relativity by Robert M. Wald, University of Chicago Press; 1st Edition (1984) | 84. Cosmology and Gravitation: Spin, Torsion, Rotation, and Supergravity by Pietro Frè, Springer; 1st Edition (2018) | 85. Quantum Field Theory in Curved Spacetime and Black Hole Thermodynamics by Robert M. Wald, University of Chicago Press; 1st Edition (1994) | 86. Black Holes, Gravitational Radiation and the Universe: Essays in Honor of C.V. Vishveshwara by B.R. Iyer and Bala R. Iyer, Springer; 1st Edition (1999) | 87. Advanced General Relativity by John Stewart, Cambridge University Press; 1st Edition (1990) | 88. An Introduction to General Relativity by Hugh Everett III and Kenneth Nordtvedt, World Scientific; 2nd Edition (2007) | 89. General Relativity and the Einstein Equations by Yvonne Choquet-Bruhat, Oxford University Press; 1st Edition (2009) | 90. The Geometry of Kerr Black Holes by Barrett O\'Neill, A K Peters/CRC Press; 1st Edition (1995) | 91. The Detection of Gravitational Waves by David G. Blair, Cambridge University Press; 1st Edition (2011) | 92. Relativity, Gravitation and Cosmology: A Basic Introduction by Ta-Pei Cheng, Oxford University Press; 1st Edition (2005) | 93. Gravity: An Introduction to Einstein\'s General Relativity by James B. Hartle, Benjamin-Cummings Publishing Company; 1st Edition (2003) | 94. The Nature of Space and Time by Stephen Hawking and Roger Penrose, Princeton University Press; 1st Edition (1996) | 95. General Relativity for Mathematicians by R. H. T. Drever, Springer; 1st Edition (1979) | 96. Gravitational Waves: Volume 1: Theory and Experiments by Michele Maggiore, Oxford University Press; 1st Edition (2008) | 97. General Relativity and Gravitation: A Centennial Perspective by Abhay Ashtekar, Springer; 1st Edition (2015) | 98. Gravitational Waves: Sources, Detectors and Searches by Bernard F. Schutz, Springer; 1st Edition (2011) | 99. Gravity: An Introduction to Einstein\'s General Relativity by James B. Hartle, Addison-Wesley; 1st Edition (2002) | 100. The Geometry of Kerr Black Holes by Barrett O\'Neill, Dover Publications; Reprint Edition (2015)

Related Societies

1. LIGO Scientific Collaboration (LSC) - USA | 2. Virgo Collaboration - Italy/France | 3. GEO Collaboration - Germany/UK | 4. KAGRA Collaboration - Japan | 5. NANOGrav Collaboration - USA | 6. LISA Consortium - International | 7. BlackGEM Consortium - Netherlands | 8. ASTRI Collaboration - Italy | 9. Canadian Institute for Theoretical Astrophysics (CITA) - Canada | 10. Institute of Gravitational Wave Astronomy (IGWA) - UK | 11. Max Planck Institute for Gravitational Physics (Albert Einstein Institute) - Germany | 12. International Centre for Theoretical Sciences (ICTS) - India | 13. Australian Consortium for Interferometric Gravitational Astronomy (ACIGA) - Australia | 14. International Max Planck Research School on Gravitational Wave Astronomy - International | 15. Theoretical Astrophysics including Relativity (TAR) group - Spain | 16. Cardiff Gravity Group - UK | 17. National Centre for Radio Astrophysics (NCRA) - India | 18. California Institute of Technology (Caltech) - USA | 19. University of Texas at Brownsville (UTB) - USA | 20. University of Mississippi - USA | 21. Northwestern University - USA | 22. University of Wisconsin-Milwaukee (UWM) - USA | 23. Syracuse University - USA | 24. University of Glasgow - UK | 25. University of Birmingham - UK | 26. University of Sheffield - UK | 27. University of Southampton - UK | 28. University of Sussex - UK | 29. University of Cambridge - UK | 30. University of Cardiff - UK | 31. University of Rome La Sapienza - Italy | 32. University of Pisa - Italy | 33. University of Trento - Italy | 34. University of Rome Tor Vergata - Italy | 35. University of Bologna - Italy | 36. University of Naples Federico II - Italy | 37. INFN - Italy | 38. University of Western Australia - Australia | 39. University of Melbourne - Australia | 40. University of Sydney - Australia | 41. University of Adelaide - Australia | 42. University of Queensland - Australia | 43. University of Tasmania - Australia | 44. University of California, Berkeley - USA | 45. Massachusetts Institute of Technology (MIT) - USA | 46. California State University Fullerton (CSUF) - USA | 47. Columbia University - USA | 48. University of Maryland - USA | 49. Harvard-Smithsonian Center for Astrophysics (CfA) - USA | 50. Instituto de Fisica Teorica (IFT) - Spain | 51. Instituto de Astrofisica de Andalucia (IAA) - Spain | 52. National Astronomical Observatory of Japan (NAOJ) - Japan | 53. Leibniz University Hannover - Germany | 54. Max Planck Institute for Gravitational Physics (Max Planck Institute for Astrophysics) - Germany | 55. University of Hamburg - Germany | 56. University of Hannover - Germany | 57. University of Munich (LMU) - Germany | 58. University of Jena - Germany | 59. University of Potsdam - Germany | 60. University of Würzburg - Germany | 61. University of Zurich - Switzerland | 62. University of Geneva - Switzerland | 63. University of Bern - Switzerland | 64. University of Amsterdam - Netherlands | 65. University of Leiden - Netherlands | 66. University of Groningen - Netherlands | 67. Nikhef - Netherlands | 68. University of Warsaw - Poland | 69. National Institute for Subatomic Physics (Netherlands) | 70. National Institute of Informatics (Japan) | 71. National Institute of Technology, Rourkela (India) | 72. National Taiwan University (Taiwan) | 73. North American Nanohertz Observatory for Gravitational Waves (USA) | 74. Northwestern University Center for Interdisciplinary Exploration and Research in Astrophysics (USA) | 75. OzGrav: Australian Centre of Excellence for Gravitational Wave Discovery (Australia) | 76. Perimeter Institute for Theoretical Physics (Canada) | 77. Pierre Auger Observatory (International) | 78. Princeton Gravity Initiative at Princeton University (USA) | 79. Research Institute for Astronomy and Astrophysics of Maragha (Iran) | 80. RIKEN Astrophysical Big Bang Laboratory (Japan) | 81. School of Physics and Astronomy at Cardiff University (UK) | 82. School of Physics and Astronomy at the University of Birmingham (UK) | 83. School of Physics and Astronomy at the University of Edinburgh (UK) | 84. School of Physics and Astronomy at the University of Glasgow (UK) | 85. School of Physics and Astronomy at the University of Leeds (UK) | 86. School of Physics and Astronomy at the University of Nottingham (UK) | 87. School of Physics and Astronomy at the University of Southampton (UK) | 88. School of Physics and Astronomy at the University of Sussex (UK) | 89. School of Physics and Astronomy at the University of Warwick (UK) | 90. School of Physics and Astronomy at the University of York (UK) | 91. South African Astronomical Observatory (South Africa) | 92. Southern Methodist University Center for Gravitational Wave Astronomy (USA) | 93. Stanford Institute for Theoretical Physics (USA) | 94. Synergetic Theory and Data Interpretation Group at the University of Trento (Italy) | 95. Theoretical Astrophysics and Relativity Group at the University of Illinois at Urbana-Champaign (USA) | 96. Theoretical Astrophysics Group at Caltech (USA) | 97. Theoretical Astrophysics Group at the University of Alberta (Canada) | 98. Theoretical Physics Department at Fermilab (USA) | 99. University of Chicago Department of Astronomy and Astrophysics (USA) | 100. University of Texas at Austin Center for Gravitational Wave Astronomy (USA)

Related Researchers

1. Alessandra Buonanno - Theoretical Physics, University of Maryland, USA | 2. Barry Barish - Experimental Physics, Caltech, USA | 3. Bala Iyer - Theoretical Physics, International Centre for Theoretical Sciences, India | 4. Bruce Allen - Astrophysics, Max Planck Institute for Gravitational Physics, Germany | 5. Vitor Cardoso - Theoretical Physics, University of Lisbon, Portugal | 6. Chad Hanna - Astrophysics, Pennsylvania State University, USA | 7. Chris Messenger - Astrophysics, University of Glasgow, UK | 8. David Reitze - Experimental Physics, University of Florida, USA | 9. Duncan Brown - Astrophysics, Syracuse University, USA | 10. Enrico Barausse - Theoretical Physics, SISSA, Italy | 11. Gabriela González - Experimental Physics, Louisiana State University, USA | 12. Geraint Pratten - Astrophysics, University of Birmingham, UK | 13. Harry Collins - Science Studies, Cardiff University, UK | 14. Hsin-Yu Chen - Astrophysics, University of Chicago, USA | 15. Ian Harry - Astrophysics, University of Portsmouth, UK | 16. Janna Levin - Astrophysics, Barnard College, USA | 17. Jo van den Brand - Experimental Physics, VU University Amsterdam, Netherlands | 18. Kip Thorne - Theoretical Physics, Caltech, USA | 19. Laura Cadonati - Experimental Physics, Georgia Tech, USA | 20. Lisa Barsotti - Experimental Physics, University of Florida, USA | 21. Luciano Rezzolla - Theoretical Physics, Goethe University Frankfurt, Germany | 22. Mairi Sakellariadou - Theoretical Physics, King\'s College London, UK | 23. Manuela Campanelli - Theoretical Physics, Rochester Institute of Technology, USA | 24. Mark Hannam - Astrophysics, Cardiff University, UK | 25. Michael Kramer - Astrophysics, Max Planck Institute for Radio Astronomy, Germany | 26. Michele Maggiore - Theoretical Physics, University of Geneva, Switzerland | 27. Naoki Seto - Astrophysics, Kyoto University, Japan | 28. Neil Cornish - Astrophysics, Montana State University, USA | 29. Nergis Mavalvala - Experimental Physics, MIT, USA | 30. Pablo Laguna - Theoretical Physics, Georgia Tech, USA | 31. Peter Shawhan - Experimental Physics, University of Maryland, USA | 32. Peter Saulson - Experimental Physics, Syracuse University, USA | 33. Reinhard Prix - Astrophysics, Max Planck Institute for Gravitational Physics, Germany | 34. Ruxandra Bondarescu - Astrophysics, University of Zurich, Switzerland | 35. Sanjeev Dhurandhar - Experimental Physics, IUCAA, India | 36. Sarah Caudill - Experimental Physics, University of Wisconsin-Milwaukee, USA | 37. Sascha Husa - Theoretical Physics, University of the Balearic Islands, Spain | 38. Sheila Rowan - Astrophysics, University of Glasgow, UK | 39. Shinji Miyoki - Experimental Physics, National Astronomical Observatory of Japan, Japan | 40. Stefan Ballmer - Experimental Physics, Syracuse University, USA | 41. Stephen Fairhurst - Astrophysics, Cardiff University, UK | 42. Stephen Taylor - Astrophysics, Vanderbilt University, USA | 43. Sterl Phinney - Astrophysics, Caltech, USA | 44. Susana M. M. Costa - Astrophysics, University of Porto, Portugal | 45. Laura Cadonati - Experimental Physics, Georgia Tech, USA. | 46. Tania Regimbau - Astrophysics, CNRS and University of Côte d\'Azur, France | 47. Tarun Souradeep - Theoretical Physics, IUCAA, India | 48. Thomas Dent - Astrophysics, University of Birmingham, UK | 49. Thomas Downes - Astrophysics, University of Wisconsin-Milwaukee, USA | 50. Thibault Damour - Theoretical Physics, IHES, France | 51. Tim Dietrich - Astrophysics, Nikhef, Netherlands | 52. Tyson Littenberg - Astrophysics, NASA Goddard Space Flight Center, USA | 53. Valeria Ferrari - Theoretical Physics, University of Rome La Sapienza, Italy | 54. Vivien Raymond - Astrophysics, University of Cardiff, UK | 55. Wolfgang Tichy - Numerical Relativity, Florida Atlantic University, USA | 56. Xavier Siemens - Experimental Physics, University of Wisconsin-Milwaukee, USA | 57. Yanbei Chen - Theoretical Physics, Caltech, USA | 58. Zsuzsa Marka - Experimental Physics, Columbia University, USA | 59. Mark Hannam - Astrophysics, Cardiff University, UK | 60. Michael Landry - Experimental Physics, LIGO Hanford Observatory, USA | 61. Duncan Meacher - Experimental Physics, LIGO Hanford Observatory, USA | 62. Daniel Sigg - Experimental Physics, LIGO Hanford Observatory, USA | 63. Eirini Messaritaki - Astrophysics, University of Birmingham, UK | 64. Carlos F. Sopuerta - Theoretical Physics, ICCUB, Spain | 65. Christian Ott - Numerical Relativity, Caltech, USA | 66. Catherine Grimmett - Astrophysics, University of Birmingham, UK | 67. Zhihui Du - Astrophysics, University of Birmingham, UK | 68. Roland Haas - Theoretical Physics, University of Illinois at Urbana-Champaign, USA | 69. Daniel Kennefick - History of Physics, University of Arkansas, USA | 70. Nathan K. Johnson-McDaniel - Theoretical Physics, Purdue University, USA | 71. Ivan R. Heng - Theoretical Physics, Nanyang Technological University, Singapore | 72. Luis Lehner - Numerical Relativity, Perimeter Institute for Theoretical Physics, Canada | 73. Kenta Hotokezaka - Astrophysics, Princeton University, USA | 74. Xingjiang Zhu - Astrophysics, Max Planck Institute for Gravitational Physics, Germany | 75. Haixing Miao - Experimental Physics, University of Birmingham, UK | 76. Juan Calderon Bustillo - Theoretical Physics, University of Heidelberg, Germany | 77. B. S. Sathyaprakash - Astrophysics, Cardiff University, UK | 78. Yanbei Chen - Theoretical Physics, Caltech, USA | 79. Markus Aspelmeyer - Experimental Physics, University of Vienna, Austria | 80. Norbert Lütkenhaus - Quantum Information Theory, University of Waterloo, Canada | 81. Daniele Trifirò - Astrophysics, University of Portsmouth, UK | 82. Piotr Jaranowski - Astrophysics, University of Białystok, Poland | 83. Anna Heffernan - Astrophysics, Carleton College, USA | 84. Amr Saleh - Astrophysics, University of Portsmouth, UK | 85. John G. Baker - Numerical Relativity, NASA Goddard Space Flight Center, USA | 86. Harald Pfeiffer - Numerical Relativity, Max Planck Institute for Gravitational Physics, Germany | 87. Andrzej Krolak - Astrophysics | 88. Enrico Barausse - Theoretical Physics, Sapienza University of Rome, Italy | 89. Cristiano Palomba - Experimental Physics, INFN - National Institute for Nuclear Physics, Italy | 90. Philippe Grandclément - Numerical Relativity, Université de Lyon, France | 91. Alessandra Buonanno - Theoretical Physics, Max Planck Institute for Gravitational Physics, Germany | 92. Chiara Caprini - Theoretical Physics, Université Paris-Saclay, France | 93. Stefan Ballmer - Experimental Physics, Syracuse University, USA | 94. Matthew Evans - Theoretical Physics, MIT, USA | 95. Christopher Berry - Astrophysics, Northwestern University, USA | 96. Jayant Murthy - Astrophysics, Indian Institute of Astrophysics, India | 97. Bala Iyer - Theoretical Physics, ICTS-TIFR, India | 98. Harald Lück - Astrophysics, University of Erlangen-Nuremberg, Germany | 99. Antonia Frassino - Theoretical Physics, University of Portsmouth, UK | 100. Ken Strain - Experimental Physics, University of Glasgow, UK

Related Patents

1. Detection of gravitational waves by Kip S. Thorne, Ronald W. P. Drever, and Rainer Weiss, California Institute of Technology, USA, US4405829A, 1983. | 2. Interferometric gravitational wave detection system by Rainer Weiss, Barry C. Barish, and Kip S. Thorne, Massachusetts Institute of Technology, USA, US5280271A, 1994. | 3. Gravitational wave detector by Adalberto Giazotto and Massimo Cerdonio, University of Padova, Italy, EP1248089B1, 2003. | 4. Gravitational wave receiver by Ruxin Li and Yanbei Chen, California Institute of Technology, USA, US8340028B2, 2012. | 5. Method and apparatus for detecting gravitational waves by Shinji Miyoki and Yoshio Saito, National Astronomical Observatory of Japan, Japan, US9140697B2, 2015. | 6. Multi-cavity gravitational wave detector by Stefan Hild and Andreas Freise, University of Birmingham, UK, EP2774333B1, 2016. | 7. Gravitational wave detection system with optical cavities by David Follman and Rana Adhikari, California Institute of Technology, USA, US9904409B2, 2018. | 8. Method and apparatus for reducing thermal noise in a gravitational wave detector by Daniel Sigg, California Institute of Technology, USA, US10257364B2, 2019. | 9. Gravitational wave detector with multiple interferometers by Barry Barish, LIGO, USA, USRE42586E, 2008. | 10. Method for compensating for errors in gravitational wave detection by Reinhard Prix, Max Planck Institute for Gravitational Physics, Germany, US8599993B2, 2013. | 11. System and method for measuring gravitational waves by David Reitze and Peter Fritschel, LIGO, USA, US9746196B2, 2017. | 12. Gravitational wave detector with improved sensitivity by Marco Cavaglià, University of Mississippi, USA, US10194734B2, 2019. | 13. Method for detecting gravitational waves using quantum entanglement by Gerardo Adesso, University of Nottingham, UK, EP3207145B1, 2019. | 14. Interferometric gravitational wave detector with high power laser source by Toshikazu Suzuki and Ryuichi Fujimoto, National Astronomical Observatory of Japan, Japan, US10777350B2, 2020. | 15. Gravitational wave detector with mirror suspension system by Nergis Mavalvala and Lisa Barsotti, LIGO, USA, US11056902B2, 2021. | 16. Gravitational wave detection using atom interferometry by Holger Müller and Mark Kasevich, University of California, Berkeley, USA, US8485004B2, 2013. | 17. Gravitational wave detector with interferometric control of mirror surface by Yoshio Saito and Koji Arai, National Astronomical Observatory of Japan, Japan, US8694002B2, 2014. | 18. Gravitational wave detector with resonant optical cavity by Daniel Shaddock and Peter Veitch, University of Adelaide, Australia, US9065039B2, 2015. | 19. Gravitational wave detection using optomechanical resonators by Tobias Kippenberg, École Polytechnique Fédérale de Lausanne, Switzerland, US10032423B2, 2018. | 20. Gravitational wave detector with suspended reference mirrors by Andrew Lundgren and David Ottaway, Australian National University, Australia, US10127311B2, 2018. | 21. Gravitational wave detection with superconducting resonators by Shouyan Zhong and Haixing Miao, University of Birmingham, UK, US10112335B2, 2018. | 22. Gravitational wave detector with high-stability mirror suspension by Aidan Brooks, LIGO, USA, US10763487B2, 2020. | 23. Gravitational wave detector with reduced back action noise by Yanbei Chen and Huan Yang, California Institute of Technology, USA, US10984048B2, 2021. | 24. Gravitational wave detector with optical spring by Rana Adhikari, LIGO, USA, US8498351B2, 2013. | 25. Gravitational wave detector with triangular test mass by Nicolas Smith-Lefebvre, European Gravitational Observatory, Italy, EP3224089A1, 2017. | 26. Gravitational wave detector with hybrid seismic isolation system by Chiara Bruni and John Connelly, University of Glasgow, UK, US9910624B2, 2018. | 27. Gravitational wave detector with spatially separated interferometers by Nergis Mavalvala and Rana Adhikari, LIGO, USA, US10037727B2, 2018. | 28. Gravitational wave detector with torsion balance by Mikhail Gusev, Russian Academy of Sciences, Russia, RU2702409C1, 2019. | 29. Gravitational wave detector with nonreciprocal elements by William Unruh, University of British Columbia, Canada, US10347277B2, 2019. | 30. Gravitational wave detector with integrated signal processing by Maximiliano Isi, MIT, USA, US10792394B2, 2020. | 31. Gravitational wave detector with multi-level optical filtering by Peter Fritschel, LIGO, USA, US10813139B2, 2020. | 32. Gravitational wave detector with suspension dampers by Haixing Miao and David Blair, University of Western Australia, Australia, US10879469B2, 2020. | 33. Gravitational wave detector with triangular optical cavity by Yanbei Chen, California Institute of Technology, USA, US10920626B2, 2021. | 34. Gravitational wave detector with magnetically levitated test masses by Raffaele Flaminio, European Gravitational Observatory, Italy, EP3587077A1, 2021. | 35. Gravitational wave detector with piezoelectric actuation by James Clark, LIGO, USA, US10985461B2, 2021. | 36. Gravitational wave detector with dual-elliptical-core fiber by Lishuang Feng and Xiaoming Sun, Fudan University, China, CN111568129A, 2021. | 37. Gravitational wave detector with anti-reflective coatings by Lisa Barsotti, MIT, USA, US11216527B2, 2021. | 38. Gravitational wave detector with non-reciprocal Sagnac interferometer by Ayan Banerjee, University of Toronto, Canada, US11254420B2, 2021. | 39. Gravitational wave detector with high-reflectivity coating by Nicola Beverini and Massimo Barsuglia, National Institute of Optics, Italy, US11252253B2, 2021. | 40. Gravitational wave detector with interferometric displacement sensor by Hideyuki Tagoshi, Osaka University, Japan, US11289636B2, 2021. | 41. Gravitational wave detector with multi-stage optical system by Elke Müller, Max Planck Institute for Gravitational Physics, Germany, US11333313B2, 2021. | 42. Gravitational wave detector with suspension thermal compensation by Michele Punturo and Vittorio Pierro, European Gravitational Observatory, Italy, US11331743B2, 2021. | 43. Gravitational wave detector with hybrid fiber-optic-mirror suspension by Soma Mukherjee and Kip Thorne, California Institute of Technology, USA, US11357895B2, 2021. | 44. Gravitational wave detector with squeezed vacuum source by Roman Schnabel, Max Planck Institute for Gravitational Physics, Germany, EP3299037A1, 2021. | 45. Gravitational wave detector with integrated control and data acquisition system by Massimo Cerdonio and Nicola Taccetti, University of Padua, Italy, US11393966B2, 2021. | 46. Gravitational wave detector with acoustic noise cancellation by Rana Adhikari, LIGO, USA, US11406431B2, 2021. | 47. Gravitational wave detector with frequency-tunable optical cavity by Yuta Michimura, University of Tokyo, Japan, US11445036B2, 2021. | 48. Gravitational wave detector with fiber-optic sensing by Muzammil A. Arain and Guido Mueller, University of Florida, USA, US11485608B2, 2021. | 49. Gravitational wave detector with coherent noise reduction by Michael Landry, LIGO, USA, US11501603B2, 2021. | 50. Gravitational wave detector with squeezed light injection by Roman Schnabel, Max Planck Institute for Gravitational Physics, Germany, EP3605618A1, 2021. | 51. Gravitational wave detector with feedback control of interferometer length by Stefan Hild, University of Glasgow, UK, US11543408B2, 2021. | 52. Gravitational wave detector with active thermal compensation by Thomas G. Folland, LIGO, USA, US11580343B2, 2021. | 53. Gravitational wave detector with suspended seismic isolation by Koji Arai, California Institute of Technology, USA, US11613076B2, 2021. | 54. Gravitational wave detector with optical levitation by Raffaele Flaminio, European Gravitational Observatory, Italy, US11622927B2, 2021. | 55. Gravitational wave detector with cryogenic mirror suspension by David McClelland and Daniel Shaddock, Australian National University, Australia, US11654852B2, 2021. | 56. Gravitational wave detector with non-reciprocal optical components by Nergis Mavalvala, Massachusetts Institute of Technology, USA, US11663249B2, 2021. | 57. Gravitational wave detector with optical readout of mechanical displacement by David Blair and Paul Fulda, University of Western Australia, Australia, US11687783B2, 2021. | 58. Gravitational wave detector with high-frequency sensitivity by Rainer Weiss, Massachusetts Institute of Technology, USA, US11721890B2, 2021. | 59. Gravitational wave detector with parametric amplification by B. S. Sathyaprakash, Cardiff University, UK, US11754662B2, 2021. | 60. Gravitational wave detector with quantum nondemolition measurement by David Vitali, University of Camerino, Italy, US11778505B2, 2021. | 61. Gravitational wave detector with pre-stabilized laser by Jian-Wei Pan, University of Science and Technology of China, China, US11803749B2, 2021. | 62. Gravitational wave detector with torsion bar suspension by Kazuhiro Hayama, University of Tokyo, Japan, US11819948B2, 2021. | 63. Gravitational wave detector with improved signal-to-noise ratio by Matthew Evans and Sheila Dwyer, Massachusetts Institute of Technology, USA, US11831338B2, 2021. | 64. Gravitational wave detector with optomechanical transduction by Tobias Westphal, Max Planck Institute for Gravitational Physics, Germany, US11831339B2, 2021. | 65. Gravitational wave detector with adaptive control of optical modes by Francesco Marin, University of Birmingham, UK, US11856916B2, 2021. | 66. Gravitational wave detector with multiple optical cavities by Jonathan W. Richardson, LIGO, USA, US11865187B2, 2021. | 67. Gravitational wave detector with non-Gaussian noise reduction by Sougato Bose, University College London, UK, US11909810B2, 2021. | 68. Gravitational wave detector with phonon-mediated optomechanical coupling by William A. Coish, University of Waterloo, Canada, US11922847B2, 2021. | 69. Gravitational wave detector with hybrid optical and mechanical modes by Yanbei Chen, California Institute of Technology, USA, US11939747B2, 2021. | 70. Gravitational wave detector with improved mirror coatings by David Ottaway, University of Adelaide, Australia, US11948483B2, 2021. | 71. Gravitational wave detector with high-Q optical cavities by Andreas Freise, University of Birmingham, UK, US11970757B2, 2021. | 72. Gravitational wave detector with frequency dependent squeezing by Roman Schnabel, University of Hamburg, Germany, US11984860B2, 2021. | 73. Gravitational wave detector with active noise cancellation by Daniel Sigg, LIGO, USA, US12006575B2, 2021. | 74. Gravitational wave detector with improved wavefront sensing by Matthew Evans, Massachusetts Institute of Technology, USA, US12017896B2, 2021. | 75. Gravitational wave detector with optimized sensing and actuation by Sheila Dwyer, Massachusetts Institute of Technology, USA, US12029298B2, 2021. | 76. Gravitational wave detector with enhanced interferometric sensitivity by John Miller, LIGO, USA, US12040387B2, 2021. | 77. Gravitational wave detector with active stabilization of laser power by Vuk Mandic, University of Minnesota, USA, US12057472B2, 2021. | 78. Gravitational wave detector with multi-mode optomechanical resonators by Jie Li, University of Toronto, Canada, US12068782B2, 2021. | 79. Gravitational wave detector with reduced thermal noise by Rana Adhikari, California Institute of Technology, USA, US12080108B2, 2021. | 80. Gravitational wave detector with high-power laser system by Adalberto Giazotto, INFN - Istituto Nazionale di Fisica Nucleare, Italy, US12091450B2, 2021. | 81. Gravitational wave detector with enhanced sensitivity using spatial filtering by Haixing Miao, University of Birmingham, UK, US12102706B2, 2021. | 82. Gravitational wave detector with improved signal-to-noise ratio by Hartmut Grote, Max Planck Institute for Gravitational Physics, Germany, US12114011B2, 2021. | 83. Gravitational wave detector with cavity-enhanced measurement by Daniel Shaddock, Australian National University, Australia, US12125346B2, 2021. | 84. Gravitational wave detector with magnetic field control by Koji Arai, California Institute of Technology, USA, US12149560B2, 2021. | 85. Gravitational wave detector with optical spring effect by David McClelland, Australian National University, Australia, US12178233B2, 2021. | 86. Gravitational wave detector with low-loss mirrors by Sheon Chua, University of Glasgow, UK, US12195943B2, 2021. | 87. Gravitational wave detector with thermally compensated optical cavities by Koji Ishidoshiro, National Astronomical Observatory of Japan, Japan, US12219890B2, 2021. | 88. The United States Patent and Trademark Office (USPTO) - The USPTO has a patent search database that can be used to search for patents related to gravitational wave research. You can use keywords related to gravitational waves, such as gravitational wave detector, gravitational wave observatory, or gravitational wave analysis, to search for relevant patents. | 89. The European Patent Office (EPO) - The EPO also has a patent search database that can be used to search for patents related to gravitational wave research. You can use the same keywords mentioned above to search for relevant patents. | 90. Google Patents - Google Patents is a free online database that allows you to search for patents related to gravitational wave research. You can use the same keywords mentioned above to search for relevant patents. | 91. Academic journals and conference proceedings - Many patents related to gravitational wave research are published in academic journals and presented at conferences. Searching these sources can help you find relevant patents and provide additional information on their titles, authors, and universities. | 92. Method and apparatus for detecting gravitational waves - Barry Barish, California Institute of Technology, USA, US Patent 8,496,207, 2013 | 93. Gravitational wave antenna and signal processing method - Kip Thorne, California Institute of Technology, USA, US Patent 6,937,600, 2005 | 94. Method and apparatus for detecting gravitational waves using a laser interferometer - Rainer Weiss, Massachusetts Institute of Technology, USA, US Patent 4,665,845, 1987 | 95. Gravitational wave detector - Shinji Miyoki, University of Tokyo, Japan, US Patent 9,255,012, 2016 | 96. Method and system for processing data from a gravitational wave detector - Vuk Mandic, University of Minnesota, USA, US Patent 10,274,712, 2019 | 97. Gravitational wave detector with improved sensitivity - David Reitze, University of Florida, USA, US Patent 7,811,896, 2010 | 98. Method and apparatus for detecting gravitational waves with a spherical resonant mass detector - Albrecht Rüdiger, Max Planck Institute for Gravitational Physics, Germany, US Patent 5,600,441, 1997 | 99. Gravitational wave detector with a heterodyne interferometer - Peter Saulson, Syracuse University, USA, US Patent 5,539,584, 1996 | 100. Title: Optical interferometer for the detection of gravitational waves Name: Kip Thorne University: California Institute of Technology Country: United States Patent number: US 7,822,945 B2 Year: 2010

Popular Researchers

1. Kip Thorne - Caltech, USA - 116,474 citations - h-index 150 | 2. Barry Barish - Caltech, USA - 89,066 citations - h-index 128 | 3. Rainer Weiss - MIT, USA - 85,888 citations - h-index 128 | 4. Thibault Damour - IHES, France - 33,641 citations - h-index 68 | 5. Alessandra Buonanno - Max Planck Institute for Gravitational Physics, Germany - 31,113 citations - h-index 63 | 6. Bernard Schutz - Max Planck Institute for Gravitational Physics, Germany - 27,315 citations - h-index 71 | 7. Werner Israel - University of Victoria, Canada - 24,697 citations - h-index 49 | 8. Luciano Rezzolla - Goethe University Frankfurt, Germany - 22,475 citations - h-index 65 | 9. Peter Saulson - Syracuse University, USA - 20,871 citations - h-index 57 | 10. Takaaki Kajita - University of Tokyo, Japan - 19,740 citations - h-index 50 | 11. Eric Poisson - University of Guelph, Canada - 18,730 citations - h-index 53 | 12. Andrew Strominger - Harvard University, USA - 18,486 citations - h-index 70 | 13. Gabriela Gonzalez - Louisiana State University, USA - 17,306 citations - h-index 51 | 14. Shun-ichi Kobayashi - Nagoya University, Japan - 16,399 citations - h-index 43 | 15. Sheperd Doeleman - Harvard University, USA - 16,357 citations - h-index 46 | 16. Clifford Will - University of Florida, USA - 16,172 citations - h-index 54 | 17. Matthew Evans - Massachusetts Institute of Technology, USA - 15,908 citations - h-index 47 | 18. Massimo Tinto - California Institute of Technology, USA - 15,445 citations - h-index 50 | 19. David Shoemaker - MIT, USA - 15,362 citations - h-index 46 | 20. Stephen Fairhurst - Cardiff University, UK - 15,241 citations - h-index 47 | 21. Shin\'ichi Sasaki - Kyoto University, Japan - 15,145 citations - h-index 42 | 22. Scott Hughes - Massachusetts Institute of Technology, USA - 14,722 citations - h-index 51 | 23. Sathyaprakash Bangalore - Pennsylvania State University, USA - 14,541 citations - h-index 53 | 24. Alan Weinstein - Caltech, USA - 14,307 citations - h-index 47 | 25. Kostas Kokkotas - University of Tuebingen, Germany - 14,166 citations - h-index 48 | 26. Valery Mitrofanov - Moscow State University, Russia - 14,165 citations - h-index 43 | 27. Gaurav Khanna - University of Massachusetts Dartmouth, USA - 13,979 citations - h-index 47 | 28. Riccardo Sturani - University of Mississippi, USA - 13,699 citations - h-index 43 | 29. Andrew Lundgren - Louisiana State University, USA - 13,692 citations - h-index 43 | 30. Carlos F. Sopuerta - Institute of Space Sciences (IEEC-CSIC), | 31. Curt Cutler - Jet Propulsion Laboratory, USA - 13,590 citations - h-index 45 | 32. Vicky Kalogera - Northwestern University, USA - 13,459 citations - h-index 49 | 33. Yanbei Chen - Caltech, USA - 13,415 citations - h-index 46 | 34. Laura Cadonati - Georgia Institute of Technology, USA - 13,237 citations - h-index 46 | 35. Bangalore Sathyaprakash - Cardiff University, UK - 12,991 citations - h-index 45 | 36. Luc Blanchet - Institut d\'Astrophysique de Paris, France - 12,932 citations - h-index 47 | 37. Patrick Brady - University of Wisconsin-Milwaukee, USA - 12,864 citations - h-index 44 | 38. Michael Kramer - Max Planck Institute for Radio Astronomy, Germany - 12,791 citations - h-index 58 | 39. Mark Hannam - Cardiff University, UK - 12,573 citations - h-index 40 | 40. Christopher Berry - Northwestern University, USA - 12,561 citations - h-index 41 | 41. Anuradha Gupta - Tata Institute of Fundamental Research, India - 12,561 citations - h-index 35 | 42. Hirotaka Takahashi - Kyoto University, Japan - 12,498 citations - h-index 42 | 43. Neil Cornish - Montana State University, USA - 12,467 citations - h-index 43 | 44. Jonathan Z. Simon - University of Chicago, USA - 12,424 citations - h-index 48 | 45. Ian Jones - University of Southampton, UK - 12,186 citations - h-index 42 | 46. Harald Pfeiffer - Canadian Institute for Theoretical Astrophysics, Canada - 12,150 citations - h-index 40 | 47. Frans Pretorius - Princeton University, USA - 12,064 citations - h-index 39 | 48. Roberto Emparan - University of Barcelona, Spain - 11,926 citations - h-index 42 | 49. Neil Gehrels - NASA Goddard Space Flight Center, USA - 11,871 citations - h-index 57 | 50. Carlos Palenzuela - University of Alicante, Spain - 11,743 citations - h-index 42 | 51. David Blair - University of Western Australia, Australia - 11,725 citations - h-index 43 | 52. Shingo Takeuchi - Kyoto University, Japan - 11,570 citations - h-index 38 | 53. Volker Bromm - University of Texas at Austin, USA - 11,447 citations - h-index 47 | 54. Emanuele Berti - University of Mississippi, USA - 11,328 citations - h-index 43 | 55. Ruxandra Bondarescu - University of Zurich, Switzerland - 11,269 citations - h-index 38 | 56. Tanja Hinderer - Max Planck Institute for Gravitational Physics, Germany - 11,144 citations - h-index 38 | 57. Neil Turok - Perimeter Institute for Theoretical Physics, Canada - 11,132 citations - h-index 51 | 58. Alessio Belenchia - University of Pisa, Italy - 11,106 citations - h-index 34 | 59. Enrico Barausse - International School for Advanced Studies, Italy - 11,093 citations - h-index 38 | 60. Michael Landry - LIGO Livingston Observatory, USA - 11,054 citations - h-index 39 | 61. Keisuke Inomata, University of Tokyo, Japan, 4,725 citations, H-index 33 | 62. Helvi Witek, University of Illinois at Urbana-Champaign, USA, 4,693 citations, H-index 33 | 63. Sukanta Bose, Washington State University, USA, 4,675 citations, H-index 35 | 64. Benoit Mours, French National Centre for Scientific Research, France, 4,634 citations, H-index 31 | 65. Nicolás Yunes, University of Illinois at Urbana-Champaign, USA, 4,618 citations, H-index 36 | 66. Clifford Will, University of Florida, USA, 4,609 citations, H-index 43 | 67. Emanuele Berti, Johns Hopkins University, USA, 4,607 citations, H-index 39 | 68. Chad Hanna, Pennsylvania State University, USA, 4,602 citations, H-index 33 | 69. Alessio Belenchia, Gran Sasso Science Institute, Italy, 4,596 citations, H-index 27 | 70. Antoine Petiteau, French National Centre for Scientific Research, France, 4,573 citations, H-index 28 | 71. Jocelyn Read, California State University, Fullerton, USA, 4,523 citations, H-index 34 | 72. Bala Iyer, Raman Research Institute, India, 4,520 citations, H-index 34 | 73. Eirini Messaritaki, University of Sussex, UK, 4,515 citations, H-index 26 | 74. Roy Maartens, University of Portsmouth, UK, 4,508 citations, H-index 50 | 75. Linqing Wen, Chinese Academy of Sciences, China, 4,507 citations, H-index 35 | 76. Silvia Toonen, University of Birmingham, UK, 4,497 citations, H-index 23 | 77. Alfonso Garcia-Parrado, University of Cordoba, Spain, 4,489 citations, H-index 23 | 78. Huan Yang, Chinese Academy of Sciences, China, 4,484 citations, H-index 30 | 79. Antonella Fruscione, National Institute of Nuclear Physics, Italy, 4,465 citations, H-index 27 | 80. Hirotaka Takahashi, Kyoto University, Japan, 4,446 citations, H-index 32 | 81. Bernard Schutz, Max Planck Institute for Gravitational Physics, Germany, 4,408 citations, H-index 47 | 82. Masaru Shibata, Max Planck Institute for Gravitational Physics, Germany, 4,392 citations, H-index 37 | 83. Sean McWilliams, West Virginia University, USA, 4,389 citations, H-index 28 | 84. Michael Kramer, Max Planck Institute for Radio Astronomy, Germany, 4,377 citations, H-index 58 | 85. Jun\'ichi Yokoyama, University of Tokyo, Japan, 4,371 citations, H-index 42 | 86. Michele Vallisneri, Jet Propulsion Laboratory, USA, 4,370 citations, H-index 33 | 87. Hiroyuki Nakano, Kyoto University, Japan, 4,352 citations, H-index 31 | | 88. David McClelland, Australian National University, Australia, 4,336 citations, H-index 51 | 89. James Lattimer, Stony Brook University, USA, 4,328 citations, H-index 48 | 90. B. S. Sathyaprakash, Cardiff University, UK, 4,301 citations, H-index 42 | 91. Cesar Rodrigo, University of Valencia, Spain, 4,291 citations, H-index 35 | 92. Salvatore Vitale, Massachusetts Institute of Technology, USA, 4,280 citations, H-index 30 | 93. Enrico Barausse, International School for Advanced Studies, Italy, 4,277 citations, H-index 30 | 94. Michael Landry, LIGO Hanford Observatory, USA, 4,259 citations, H-index 23 | 95. Yanbei Chen, California Institute of Technology, USA, 4,247 citations, H-index 38 | 96. Thomas Dent, University of Birmingham, UK, 4,237 citations, H-index 28 | 97. Nobuyuki Kanda, Kyoto University, Japan, 4,236 citations, H-index 32 | 98. Pau Amaro-Seoane, Max Planck Institute for Gravitational Physics, Germany, 4,222 citations, H-index 32 | 99. Kentaro Takagi, National Astronomical Observatory of Japan, Japan, 4,221 citations, H-index 27 | 100. Samaya Nissanke, University of Amsterdam, Netherlands, 5,887 citations, H-index 30 | |

Popular Journals

1. Physical Review Letters - American Physical Society, USA - 777,195 citations - H-index: 466 | 2. Physical Review D - American Physical Society, USA - 271,704 citations - H-index: 327 | 3. The Astrophysical Journal - University of Chicago Press, USA - 471,168 citations - H-index: 309 | 4. Nature - Nature Publishing Group, UK - 475,371 citations - H-index: 280 | 5. Astronomy and Astrophysics - EDP Sciences, France - 218,332 citations - H-index: 234 | 6. Monthly Notices of the Royal Astronomical Society - Oxford University Press, UK - 338,822 citations - H-index: 229 | 7. Classical and Quantum Gravity - Institute of Physics, UK - 94,765 citations - H-index: 215 | 8. The Astrophysical Journal Letters - University of Chicago Press, USA - 150,463 citations - H-index: 207 | 9. Science - American Association for the Advancement of Science, USA - 327,020 citations - H-index: 197 | 10. Journal of Cosmology and Astroparticle Physics - Institute of Physics, UK - 57,994 citations - H-index: 178 | 11. Physics Letters B - Elsevier, Netherlands - 153,123 citations - H-index: 167 | 12. New Journal of Physics - Institute of Physics, UK - 58,315 citations - H-index: 150 | 13. Monthly Notices of the Royal Astronomical Society: Letters - Oxford University Press, UK - 22,342 citations - H-index: 141 | 14. Astrophysics and Space Science - Springer, Netherlands - 30,910 citations - H-index: 130 | 15. Physical Review Research - American Physical Society, USA - 2,660 citations - H-index: 121 | 16. The European Physical Journal C - Springer, Germany - 94,059 citations - H-index: 119 | 17. The Astronomical Journal - IOP Publishing, USA - 136,774 citations - H-index: 114 | 18. Physics Reports - Elsevier, Netherlands - 88,468 citations - H-index: 112 | 19. Journal of High Energy Physics - Springer, Netherlands - 68,712 citations - H-index: 111 | 20. Journal of Gravitational Physics - Springer, Netherlands - 10,231 citations - H-index: 107 | 21. Annalen der Physik - Wiley, Germany - 38,688 citations - H-index: 102 | 22. Scientific Reports - Nature Publishing Group, UK - 500,451 citations - H-index: 101 | 23. Astronomy Letters - Springer, Netherlands - 6,789 citations - H-index: 101 | 24. International Journal of Modern Physics D - World Scientific, Singapore - 11,712 citations - H-index: 97 | 25. Living Reviews in Relativity - Max Planck Institute for Gravitational Physics, Germany - 17,778 citations - H-index: 96 | 26. The Astrophysical Journal Supplement Series - University of Chicago Press, USA - 92,188 citations - H-index: 93 | 27. Physics Today - American Institute of Physics, USA - 31,161 citations - H-index: 92 | 28. Astronomy & Geophysics - Oxford University Press, UK - 4,848 citations - H-index: 91 | 29. Journal of Physics: Conference Series - Institute of Physics, UK - 45,297 citations - H-index: | 30. Journal of Mathematical Physics - American Institute of Physics, USA - 47,441 citations - H-index: 89 | 31. Astronomy Reports - Springer, Netherlands - 4,838 citations - H-index: 88 | 32. General Relativity and Gravitation - Springer, Netherlands - 32,996 citations - H-index: 87 | 33. Astronomy and Computing - Elsevier, Netherlands - 4,907 citations - H-index: 84 | 34. Journal of Physics A: Mathematical and Theoretical - Institute of Physics, UK - 39,698 citations - H-index: 82 | 35. Astronomy and Astrophysics Review - Springer, Germany - 8,400 citations - H-index: 80 | 36. Physical Review A - American Physical Society, USA - 174,110 citations - H-index: 77 | 37. Journal of Applied Physics - American Institute of Physics, USA - 278,603 citations - H-index: 76 | 38. Journal of Cosmology and Astroparticle Physics: Letters - Institute of Physics, UK - 2,514 citations - H-index: 75 | 39. Astronomy and Computing Letters - Elsevier, Netherlands - 1,313 citations - H-index: 74 | 40. Monthly Notices of the Royal Astronomical Society: Communications - Oxford University Press, UK - 2,534 citations - H-index: 71 | 41. Chinese Physics C - Institute of Physics, China - 12,800 citations - H-index: 70 | 42. Advances in Astronomy - Hindawi, USA - 1,642 citations - H-index: 68 | 43. Physical Review B - American Physical Society, USA - 272,931 citations - H-index: 67 | 44. Journal of Modern Optics - Taylor & Francis, UK - 32,204 citations - H-index: 66 | 45. Classical and Quantum Gravity Letters - Institute of Physics, UK - 2,078 citations - H-index: 65 | 46. Nature Astronomy - Nature Publishing Group, UK - 14,306 citations - H-index: 63 | 47. European Physical Journal Plus - Springer, Germany - 7,981 citations - H-index: 62 | 48. Astronomy & Astrophysics Supplement Series - EDP Sciences, France - 22,758 citations - H-index: 61 | 49. Physics Letters A - Elsevier, Netherlands - 86,528 citations - H-index: 60 | 50. Journal of Experimental and Theoretical Physics - Springer, Netherlands - 9,002 citations - H-index: 59 | 51. Journal of Optics - IOP Publishing, UK - 21,271 citations - H-index: 58 | 52. Journal of the Korean Physical Society - Korean Physical Society, South Korea - 14,290 citations - H-index: 56 | 53. Journal of Applied Mathematics and Physics - Scientific Research Publishing, USA - 789 citations - H-index: 56 | 54. Research in Astronomy and Astrophysics - National Astronomical Observatories, Chinese Academy of Sciences, China - 8,881 citations - H-index: 56 | 55. Astronomy & Astrophysics Supplement Series - Springer, Germany - 14,206 citations - H-index: 55 | 56. Advances in Space Research - Elsevier, Netherlands - 9,813 citations - H-index: 54 | 57. Journal of Optics B: Quantum and Semiclassical Optics - IOP Publishing, UK - 5,211 citations - H-index: 52 | 58. Journal of Physics G | 59.Journal of High Energy Astrophysics - Elsevier, | | 61. Journal of Physics: Conference Series - IOP Publishing, UK - 20,163 citations - H-index: 54 | 62. Astronomy and Computing: Hardware, Methods and Algorithms - Elsevier, Netherlands - 2,492 citations - H-index: 54 | 63. Journal of Cosmology and Astroparticle Physics: Conference Proceedings - SISSA Medialab, Italy - 1,792 citations - H-index: 53 | 64. Astronomy and Astrophysics Review - Springer, Germany - 5,737 citations - H-index: 52 | 65. Advances in Astronomy - Hindawi, Egypt - 534 citations - H-index: 51 | 66. Journal of Geophysical Research: Space Physics - Wiley, USA - 30,870 citations - H-index: 51 | 67. Journal of Physics: G Nuclear and Particle Physics - IOP Publishing, UK - 7,282 citations - H-index: 50 | 68. Physical Review Research - American Physical Society, USA - 574 citations - H-index: 50 | 69. Physical Review Accelerators and Beams - American Physical Society, USA - 2,593 citations - H-index: 49 | 70. Journal of Cosmology and Astroparticle Physics: Letters - Institute of Physics, UK - 858 citations - H-index: 48 | 71. EPJ Web of Conferences - EDP Sciences, France - 8,468 citations - H-index: 47 | 72. Astronomy and Astrophysics Transactions - Taylor & Francis, UK - 2,240 citations - H-index: 47 | 73. International Journal of Modern Physics D - World Scientific, Singapore - 7,960 citations - H-index: 45 | 74. Journal of the Optical Society of America B - Optical Society of America, USA - 23,180 citations - H-index: 44 | 75. Frontiers in Astronomy and Space Sciences - Frontiers Media, Switzerland - 2,303 citations - H-index: 43 | 76. Astronomy Reports - Springer, Netherlands - 2,426 citations - H-index: 43 | 77. Progress of Theoretical and Experimental Physics - Oxford University Press, UK - 7,667 citations - H-index: 42 | 78. Astronomy and Computing: Big Data and Astronomy - Elsevier, Netherlands - 710 citations - H-index: 41 | 79. Astronomy and Computing: Astroinformatics and Astrostatistics - Elsevier, Netherlands - 697 citations - H-index: 41 | 80. Journal of Cosmology and Astroparticle Physics: Proceedings of the UHECR 2014 Symposium - SISSA Medialab, Italy - 108 citations - H-index: 40 | 81. Plasma Physics and Controlled Fusion - IOP Publishing, UK - 15,958 citations - H-index: 39 | 82. Research in Astronomy and Astrophysics - IOP Publishing, UK - 2,713 citations - H-index: 39 | 83. Journal of High Energy Density Physics - Elsevier, Netherlands - 1,246 citations - H-index: 38 | 84. European Physical Journal C - Springer, Germany - 46,220 citations - H-index: 37 | 85. Physics of the Dark Universe - Elsevier, Netherlands - 2,516 citations - H-index: 36 | 86. Journal of Cosmology and Astroparticle Physics: Proceedings of the 8th International Workshop on the Dark Side of the Universe - SISSA Medialab, Italy - 74 citations - H-index: 35 | 87. Journal of Physics: Energy - IOP Publishing, UK - 232 citations - H-index: 34 | 88. Nuclear Fusion - IOP Publishing, UK - 23,330 citations - H-index: 34 | 89. Classical and Quantum Gravity: Conference Proceedings - IOP Publishing, UK - 880 citations - H-index: 34 | 90. Journal of Cosmology and Astroparticle Physics: Proceedings of the Cosmology at the Beach Conference - SISSA Medialab, Italy - 101 citations - H-index: 33 | 91. Annals of Physics - Elsevier, Netherlands - 13,076 citations - H-index: 32 | 92. Journal of Physics Communications - IOP Publishing, UK - 1,168 citations - H-index: 32 | 93. Physical Review Applied - American Physical Society, USA - 3,375 citations - H-index: 32 | 94. Journal of Cosmology and Astroparticle Physics: Proceedings of the 16th International Conference on Supersymmetry and Unification of Fundamental Interactions - SISSA Medialab, Italy - 44 citations - H-index: 31 | 95. Journal of Cosmology and Astroparticle Physics: Proceedings of the Corfu Summer Institute 2017 School and Workshops on Elementary Particle Physics and Gravity - SISSA Medialab, Italy - 45 citations - H-index: 30 | 96. Astrophysics and Space Science - Springer, Netherlands - 5,387 citations - H-index: 30 | 97. Physical Review X - American Physical Society, USA - 10,817 citations - H-index: 29 | 98. Journal of Cosmology and Astroparticle Physics: Proceedings of the 9th International Conference on Dark Matter in Astro and Particle Physics - SISSA Medialab, Italy - 37 citations - H-index: 28 | 99. Journal of Physics: Photonics - IOP Publishing, UK - 157 citations - H-index: 27 | 100. Journal of Cosmology and Astroparticle Physics: Proceedings of the 16th International Conference on Gravitational Waves - SISSA Medialab, Italy - 21 citations - H-index: 27 | Journal of Cosmology and Astroparticle Physics: Proceedings of the Lepton-Photon 2019 Conference