Gravitational Wave Propagation for The Generalized Proca Theories
Main Article Content
Abstract
In general relativity, a gravitational wave propagates with the speed of light, but in
the alternative theories of gravity, propagation speed could deviate from the speed of light
due to the modification of gravity. Gravitational waves are influenced by modified gravity
during propagation at the cosmological distance. In this paper, we investigate the
propagation of a gravitational wave of the generalized Proca theories by considering
gravitational wave as the gravitational field propagates in spacetime as a wave perturbing flat
spacetime. We show that the arbitrary functions G3, G4, and G5 can be the sources of
deviation of the speed of the gravitational wave.
Downloads
Download data is not yet available.
Article Details
How to Cite
lutan, marliana, Widiyani, A., Sutiono, A., Hikmawan, G., Suroso, A., & Zen, F. (2022). Gravitational Wave Propagation for The Generalized Proca Theories. Indonesian Journal of Physics, 33(1), 58 - 62. https://doi.org/10.5614/itb.ijp.2022.33.1.7
Section
Articles
References
[1] Abbott B.P et al, (LIGO Scientific Collaboration and Virgo Collaboration), Physical Review Letters 116.061102, 2016,.
[2] Abbott B.P et al, (LIGO Scientific Collaboration and Virgo Collaboration), Physical Review Letters 116.241103, 2016.
[3] Abbott B.P et al, (LIGO Scientific Collaboration and Virgo Collaboration), Physical Review Letters 118.221101, 2017.
[4] Abbott B.P et al, (LIGO Scientific Collaboration and Virgo Collaboration), Physical Review Letters 119.141101, 2017.
[5] Abbott B.P et al, (LIGO Scientific Collaboration and Virgo Collaboration), Physical Review Letters 119.161101, 2017.
[6] Abbott B.P et al, (Virgo, Fermi-GBM,INTEGRAL, LIGO Scientific), Astrophys. J.848, L13, 2017.
[7] Heisenberg L, Journal od Cosmology and Astroparticle Physics, JCAP05(2014)015, 2014.
[8] De Felice A. Et al, Journal od Cosmology and Astroparticle Physics, JCAP06(2016)048, 2016.
[9] De Felice, A., L. Heisenberg, and S. Tsujikawa, Physical Review, D95, 123540(2017) , 2017.
[10] Lagos M et all, Physical Review D99, 083504(2019) , 2019.
[11] Bellini E and Sawicki I, Journal od Cosmology and Astroparticle Physics, JCAP07(2014)050, 2014.
[12] Saltas, I.D., et al, Physical Review Letters, PRL 113,191101(2014) , 2014.
[13] Nishizawa A, Physical Review, D97, 104037(2018) , 2018.
[14] Arai S, and A. Nishizawa, Physical Review, D97, 10438(2018), 2018.
[15] Nunes, R.C., M.E.S. Alves, and J.C.N de Araujo, Physical Review D99, 0840022(2019) , 2019.
[16] Amendola L., et al, Journal od Cosmology and Astroparticle Physics, JCAP08(2018)030, 2018.
[2] Abbott B.P et al, (LIGO Scientific Collaboration and Virgo Collaboration), Physical Review Letters 116.241103, 2016.
[3] Abbott B.P et al, (LIGO Scientific Collaboration and Virgo Collaboration), Physical Review Letters 118.221101, 2017.
[4] Abbott B.P et al, (LIGO Scientific Collaboration and Virgo Collaboration), Physical Review Letters 119.141101, 2017.
[5] Abbott B.P et al, (LIGO Scientific Collaboration and Virgo Collaboration), Physical Review Letters 119.161101, 2017.
[6] Abbott B.P et al, (Virgo, Fermi-GBM,INTEGRAL, LIGO Scientific), Astrophys. J.848, L13, 2017.
[7] Heisenberg L, Journal od Cosmology and Astroparticle Physics, JCAP05(2014)015, 2014.
[8] De Felice A. Et al, Journal od Cosmology and Astroparticle Physics, JCAP06(2016)048, 2016.
[9] De Felice, A., L. Heisenberg, and S. Tsujikawa, Physical Review, D95, 123540(2017) , 2017.
[10] Lagos M et all, Physical Review D99, 083504(2019) , 2019.
[11] Bellini E and Sawicki I, Journal od Cosmology and Astroparticle Physics, JCAP07(2014)050, 2014.
[12] Saltas, I.D., et al, Physical Review Letters, PRL 113,191101(2014) , 2014.
[13] Nishizawa A, Physical Review, D97, 104037(2018) , 2018.
[14] Arai S, and A. Nishizawa, Physical Review, D97, 10438(2018), 2018.
[15] Nunes, R.C., M.E.S. Alves, and J.C.N de Araujo, Physical Review D99, 0840022(2019) , 2019.
[16] Amendola L., et al, Journal od Cosmology and Astroparticle Physics, JCAP08(2018)030, 2018.