Indirect Detection of Gravitational Waves Method Validation Using an Analogue Electromagnetic Spacetime Modulated Medium

被引:0
作者
Falcon-Gomez, Enderson [1 ]
Abdalmalak, Kerlos Atia [1 ,6 ]
Amor-Martin, Adrian [1 ]
Jimenez, Alfonso Gonzalez [1 ]
De la Rubia, Valentin [2 ]
Botello, Gabriel Santamaria [3 ]
De Falco, Vittorio [4 ,5 ]
Munoz, Luis Enrique Garcia [1 ]
机构
[1] Univ Carlos III Madrid, Signal Theory & Commun Dept, Leganes, Spain
[2] Univ Politecn Madrid, ETSI Telecomunicac, Dept Matemat Aplicada TIC, Madrid, Spain
[3] Univ Colorado Boulder, Dept Elect Comp & Energy Engn, Boulder, CO USA
[4] Scuola Super Meridionale, Largo San Marcellino 10, I-80138 Naples, Italy
[5] Ist Nazl Fis Nucl, Sez Napoli, Via Cintia, I-80126 Naples, Italy
[6] Aswan Univ, Elect Engn Dept, Aswan 81542, Egypt
来源
2023 17TH EUROPEAN CONFERENCE ON ANTENNAS AND PROPAGATION, EUCAP | 2023年
关键词
Gravitational Waves; electromagnetic waves; interaction; General Relativity; electromagnetic analogue gravity models; NAUTILUS;
D O I
10.23919/EuCAP57121.2023.10133504
中图分类号
TM [电工技术]; TN [电子技术、通信技术];
学科分类号
0808 ; 0809 ;
摘要
This manuscript studies the interaction between Gravitational Plane Waves and Electromagnetic Plane Waves by means of an analogous electromagnetic model of gravity, where the electromagnetic properties codify the variations in the metric tensor produced by the Gravitational Plane Wave. A space-time modulation of the electromagnetic properties of the medium is generated and analyzed via the Finite-Difference Time-Domain method. We find that, when a Gravitational Plane Wave interacts with a monochromatic Electromagnetic Plane Wave, it is triggered a multiple scattering of photons by gravitons resulting in the apparition of an infinite number of electromagnetic sidebands, equally separated between themselves by the Gravitational Plane Wave frequency. We numerically prove in this paper a totally novel effect that might be used in the detection of gravitational waves.
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页数:5
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共 25 条
[1]   Advanced LIGO [J].
Aasi, J. ;
Abbott, B. P. ;
Abbott, R. ;
Abbott, T. ;
Abernathy, M. R. ;
Ackley, K. ;
Adams, C. ;
Adams, T. ;
Addesso, P. ;
Adhikari, R. X. ;
Adya, V. ;
Affeldt, C. ;
Aggarwal, N. ;
Aguiar, O. D. ;
Ain, A. ;
Ajith, P. ;
Alemic, A. ;
Allen, B. ;
Amariutei, D. ;
Anderson, S. B. ;
Anderson, W. G. ;
Arai, K. ;
Araya, M. C. ;
Arceneaux, C. ;
Areeda, J. S. ;
Ashton, G. ;
Ast, S. ;
Aston, S. M. ;
Aufmuth, P. ;
Aulbert, C. ;
Aylott, B. E. ;
Babak, S. ;
Baker, P. T. ;
Ballmer, S. W. ;
Barayoga, J. C. ;
Barbet, M. ;
Barclay, S. ;
Barish, B. C. ;
Barker, D. ;
Barr, B. ;
Barsotti, L. ;
Bartlett, J. ;
Barton, M. A. ;
Bartos, I. ;
Bassiri, R. ;
Batch, J. C. ;
Baune, C. ;
Behnke, B. ;
Bell, A. S. ;
Bell, C. .
CLASSICAL AND QUANTUM GRAVITY, 2015, 32 (07)
[2]   GW170817: Observation of Gravitational Waves from a Binary Neutron Star Inspiral [J].
Abbott, B. P. ;
Abbott, R. ;
Abbott, T. D. ;
Acernese, F. ;
Ackley, K. ;
Adams, C. ;
Adams, T. ;
Addesso, P. ;
Adhikari, R. X. ;
Adya, V. B. ;
Affeldt, C. ;
Afrough, M. ;
Agarwal, B. ;
Agathos, M. ;
Agatsuma, K. ;
Aggarwal, N. ;
Aguiar, O. D. ;
Aiello, L. ;
Ain, A. ;
Ajith, P. ;
Allen, B. ;
Allen, G. ;
Allocca, A. ;
Altin, P. A. ;
Amato, A. ;
Ananyeva, A. ;
Anderson, S. B. ;
Anderson, W. G. ;
Angelova, S. V. ;
Antier, S. ;
Appert, S. ;
Arai, K. ;
Araya, M. C. ;
Areeda, J. S. ;
Arnaud, N. ;
Arun, K. G. ;
Ascenzi, S. ;
Ashton, G. ;
Ast, M. ;
Aston, S. M. ;
Astone, P. ;
Atallah, D. V. ;
Aufmuth, P. ;
Aulbert, C. ;
AultONeal, K. ;
Austin, C. ;
Avila-Alvarez, A. ;
Babak, S. ;
Bacon, P. ;
Bader, M. K. M. .
PHYSICAL REVIEW LETTERS, 2017, 119 (16)
[3]   GWTC-1: A Gravitational-Wave Transient Catalog of Compact Binary Mergers Observed by LIGO and Virgo during the First and Second Observing Runs [J].
Abbott, B. P. ;
Abbott, R. ;
Abbott, T. D. ;
Abraham, S. ;
Acernese, F. ;
Ackley, K. ;
Adams, C. ;
Adhikari, R. X. ;
Adya, V. B. ;
Affeldt, C. ;
Agathos, M. ;
Agatsuma, K. ;
Aggarwal, N. ;
Aguiar, O. D. ;
Aiello, L. ;
Ain, A. ;
Ajith, P. ;
Allen, G. ;
Allocca, A. ;
Aloy, M. A. ;
Altin, P. A. ;
Amato, A. ;
Ananyeva, A. ;
Anderson, S. B. ;
Anderson, W. G. ;
Angelova, S., V ;
Antier, S. ;
Appert, S. ;
Arai, K. ;
Araya, M. C. ;
Areeda, J. S. ;
Arene, M. ;
Arnaud, N. ;
Arun, K. G. ;
Ascenzi, S. ;
Ashton, G. ;
Aston, S. M. ;
Astone, P. ;
Aubin, F. ;
Aufmuth, P. ;
AultONeal, K. ;
Austin, C. ;
Avendano, V ;
Avila-Alvarez, A. ;
Babak, S. ;
Bacon, P. ;
Badaracco, F. ;
Bader, M. K. M. ;
Bae, S. ;
Baker, P. T. .
PHYSICAL REVIEW X, 2019, 9 (03)
[4]   The basic physics of the binary black hole merger GW150914 [J].
Abbott, B. P. ;
Abbott, R. ;
Abbott, T. D. ;
Abernathy, M. R. ;
Acernese, F. ;
Ackley, K. ;
Adams, C. ;
Adams, T. ;
Addesso, P. ;
Adhikari, R. X. ;
Adya, V. B. ;
Affeldt, C. ;
Agathos, M. ;
Agatsuma, K. ;
Aggarwal, N. ;
Aguiar, O. D. ;
Aiello, L. ;
Ain, A. ;
Ajith, P. ;
Allen, B. ;
Allocca, A. ;
Altin, P. A. ;
Anderson, S. B. ;
Anderson, W. G. ;
Arai, K. ;
Araya, M. C. ;
Arceneaux, C. C. ;
Areeda, J. S. ;
Arnaud, N. ;
Arun, K. G. ;
Ascenzi, S. ;
Ashton, G. ;
Ast, M. ;
Aston, S. M. ;
Astone, P. ;
Aufmuth, P. ;
Aulbert, C. ;
Babak, S. ;
Bacon, P. ;
Bader, M. K. M. ;
Baldaccini, F. ;
Ballardin, G. ;
Ballmer, S. W. ;
Barayoga, J. C. ;
Barclay, S. E. ;
Barish, B. C. ;
Barker, D. ;
Barone, F. ;
Barr, B. ;
Barsotti, L. .
ANNALEN DER PHYSIK, 2017, 529 (1-2)
[5]   Observation of Gravitational Waves from a Binary Black Hole Merger [J].
Abbott, B. P. ;
Abbott, R. ;
Abbott, T. D. ;
Abernathy, M. R. ;
Acernese, F. ;
Ackley, K. ;
Adams, C. ;
Adams, T. ;
Addesso, P. ;
Adhikari, R. X. ;
Adya, V. B. ;
Affeldt, C. ;
Agathos, M. ;
Agatsuma, K. ;
Aggarwal, N. ;
Aguiar, O. D. ;
Aiello, L. ;
Ain, A. ;
Ajith, P. ;
Allen, B. ;
Allocca, A. ;
Altin, P. A. ;
Anderson, S. B. ;
Anderson, W. G. ;
Arai, K. ;
Arain, M. A. ;
Araya, M. C. ;
Arceneaux, C. C. ;
Areeda, J. S. ;
Arnaud, N. ;
Arun, K. G. ;
Ascenzi, S. ;
Ashton, G. ;
Ast, M. ;
Aston, S. M. ;
Astone, P. ;
Aufmuth, P. ;
Aulbert, C. ;
Babak, S. ;
Bacon, P. ;
Bader, M. K. M. ;
Baker, P. T. ;
Baldaccini, F. ;
Ballardin, G. ;
Ballmer, S. W. ;
Barayoga, J. C. ;
Barclay, S. E. ;
Barish, B. C. ;
Barker, D. ;
Barone, F. .
PHYSICAL REVIEW LETTERS, 2016, 116 (06)
[6]  
Abbott BP, 2009, REPORTS PROGR PHYS, V72
[7]  
[Anonymous], 2017, ASTROPHYSICAL J LETT
[8]   Study of the coincidences between the gravitational wave detectors EXPLORER and NAUTILUS in 2001 [J].
Astone, P ;
Babusci, D ;
Bassan, M ;
Bonifazi, P ;
Carelli, P ;
Cavallari, G ;
Coccia, E ;
Cosmelli, C ;
D'Antonio, S ;
Fafone, V ;
Federici, G ;
Frasca, S ;
Giordano, G ;
Marini, A ;
Minenkov, Y ;
Modena, I ;
Modestino, G ;
Moleti, A ;
Pallottino, GV ;
Pizzella, G ;
Quintieri, L ;
Rocchi, A ;
Ronga, F ;
Terenzi, R ;
Torrioli, G ;
Visco, M .
CLASSICAL AND QUANTUM GRAVITY, 2002, 19 (21) :5449-5463
[9]   The gravitational wave detector NAUTILUS operating at T=0.1 K [J].
Astone, P ;
Bassan, M ;
Bonifazi, P ;
Carelli, P ;
Coccia, E ;
Cosmelli, C ;
Fafone, V ;
Frasca, S ;
Marini, A ;
Mazzitelli, G ;
Minenkov, Y ;
Modena, I ;
Modestino, G ;
Moleti, A ;
Pallottino, GV ;
Papa, MA ;
Pizzella, G ;
Rapagnani, P ;
Ricci, F ;
Ronga, F ;
Terenzi, R ;
Visco, M ;
Votano, L .
ASTROPARTICLE PHYSICS, 1997, 7 (03) :231-243
[10]   Gravitational-wave physics and astronomy in the 2020s and 2030s [J].
Bailes, M. ;
Berger, B. K. ;
Brady, P. R. ;
Branchesi, M. ;
Danzmann, K. ;
Evans, M. ;
Holley-Bockelmann, K. ;
Iyer, B. R. ;
Kajita, T. ;
Katsanevas, S. ;
Kramer, M. ;
Lazzarini, A. ;
Lehner, L. ;
Losurdo, G. ;
Luck, H. ;
McClelland, D. E. ;
McLaughlin, M. A. ;
Punturo, M. ;
Ransom, S. ;
Raychaudhury, S. ;
Reitze, D. H. ;
Ricci, F. ;
Rowan, S. ;
Saito, Y. ;
Sanders, G. H. ;
Sathyaprakash, B. S. ;
Schutz, B. F. ;
Sesana, A. ;
Shinkai, H. ;
Siemens, X. ;
Shoemaker, D. H. ;
Thorpe, J. ;
van den Brand, J. F. J. ;
Vitale, S. .
NATURE REVIEWS PHYSICS, 2021, 3 (05) :344-366
123