Research Article
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VARIABLE GENERALIZED CHAPLYGIN GAS AS A SCALAR FIELD DARK ENERGY MODEL

Year 2019, Volume: 2 Issue: 1, 98 - 102, 30.01.2019
https://doi.org/10.33773/jum.506503

Abstract

A large number of scalar eld ideas have been introduced in literature in order to discuss the speedy expansion nature of our universe. Scalar eld denitions naturally come forward in particle physics. Fundamental particle physics theories can yield various scalar eld descriptions, but they do not dene its self-interacting potential exactly due to the complexity of corresponding equations. Here, we mainly focused on the reconstruction of the tachyon scalar eld dark energy prescription by making use of the variable generalized Chaplygin gas (VGCG) dark energy model in the four-dimensional (4D) spatially  at Friedmann-Robertson-Walker (FRW) framework.

References

  • S. Perlmutter, et al., Measurements of Omega and Lambda from 42 High-Redshift Supernovae, Astrophys. J., 517, 565 (1999).C.L. Bennet, et al., First-Year Wilkinson Microwave Anisotropy Probe (WMAP) Observations: Preliminary Maps and Basic Results, Astrophys. J. Suppl., 148, 1 (2003). M. Tegmark, et al., Cosmological parameters from SDSS and WMAP, Phys. Rev. D, 69, 103501(2004). A.W. Allen, et al., Constraints on dark energy from Chandra observations of the largest relaxed galaxy clusters, Mon. Not. R. Astron. Soc., 353, 457 (2004).P.A.R. Ade, et al., Planck 2013 results - XII. Component separation, A&A 571, A12 (2014).P.A.R. Ade, et al., Planck 2015 results - XIII. Cosmological parameters, A&A 594, A13 (2016).M.F. Wondrak, The Cosmological Constant and its Problems: A Review of Gravitational Aether, e-Print: gr-qc/1705.06294 V. Sahni, Dark matter and dark energy, Lect. Notes Phys., 653, 141-180 (2004). E.J. Copeland, M. Sami and S. Tsujikawa, Dynamics of dark energy, Int. J. Mod. Phys. D,15, 1753 (2006). R.R. Caldwell, A Phantom Menace? Cosmological consequences of a dark energy component with super-negative equation of state, Phys. Lett. B, 545, 23-29 (2002).B. Feng, X. L. Wang and X. M. Zhang, Dark Energy Constraints from the Cosmic Age and Supernova, Phys. Lett. B, 607, 35 (2005).T. Chiba, T. Okabe and M. Yamaguchi, Kinetically driven quintessence, Phys. Rev. D, 62, 023511 (2000).A. Yu. Kamenshchik, U. Moschella and V. Pasquier, An alternative to quintessence, Phys. Lett. B, 511, 265 (2001).J. Christensen-Dalsgard, Lecture Notes on Stellar Structure and Evolution, Aarhus Univ. Press, Aarhus, p.13 (2004).M. Salti, O. Aydogdu, H. Yanar and K. Sogut, Variable generalized Chaplygin gas in a 5D cosmology, Annals of Physics, 390, 131-142 (2018). M. Askin, M. Salti and O. Aydogdu, Cosmology via thermodynamics of Polytropic gas, Mod. Phys. Lett. A, Vol.32, No.32, 1750177 (2017). B. Boisseau, G. Esposito-Farese, D. Polarski and A. A. Starobinsky, Reconstruction of a scalar-tensor theory of gravity in an accelerating universe, Phys. Rev. Lett., 85, 2236 (2000). S. Capozziello, Curvature Quintessence, Int. J. Mod. Phys. D, 11, 483 (2002). V. Faraoni, f(R)-gravity: Successes and challenges, XVIII Congresso SIGRAV General Relativity and Gravitational Physics, Cosenza, 2225 September (2008). S. Capozziello, R. Cianci, C. Stornaiolo and S. Vignolo, f(R) Cosmology with torsion, Phys. Scr., 78, 065010 (2008). H. Abedi and M. Salti, Multiple field modifed gravity and localized energy in teleparallel framework, Gen. Rel. Grav., 47, 93 (2015). M. Askin, H. Abedi and M. Salti, Thermodynamics in f(T; )-gravity, Rom. J. Phys., Vol.60, Nos.1-2, 44-55 (2015). M. Salti, M. Korunur, I Acikgoz, N. Princcioglu and F. Binbay, f(T;R) theory of gravity, Int. J. Mod. Phys. D, 27, 1850062 (2018). O. Klein, Quantentheorie und funfdimensionale Relativitatstheorie, Zeits. Phys., 37, 895 (1926).T. Kaluza, On the Unication Problem in Physics, Sits. Press. Akad. Wiss. Math. Phys., K1, 895 (1921).G. Calcagni, Fractal universe and quantum gravity, Phys. Rev. Lett., 104, 251301 (2010). M. Salti, H. Yanar, O. Aydogdu and K. Sogut, Dynamics of Ghost Scalar Fields in Kaluza-Klein Cosmology, Astrophys. Space Sci., Vol.362, No.11, 207 (2017). I. Acikgoz, F. Binbay, M. Salti and O. Aydogdu, Ghost DBI-essence in fractal geometry, Eur.Phys. J. Plus, 131, 157 (2016).M. Li, X. D. Li, S. Wang and X. Zhang, Holographic dark energy models: A comparison from the latest observational data, J. Cosmol. Astropart. Phys., 06, 036 (2009). Y.-F. Cai, S. Capozziello, M. De Laurentis and E. N. Saridakis, f(T) teleparallel gravity and cosmology, Rept. Prog. Phys., 79, 106901 (2016).X.Y. Yang, Y.B. Wu, J.B. Lu and S. Li, Evolution of Variable Generalized Chaplygin Gas, Chin. Phys. Lett., 24, 302 (2007). G.W. Gibbons, Cosmological Evolution of the Rolling Tachyon, Phys. Lett. B, 537, 1 (2002). A. Mazumdar, S. Panda and A. Perez-Lorenzana, Assisted in ation via tachyon condensation, Nucl. Phys. B, 614, 101 (2001).T. Padmanabhan, Accelerated expansion of the universe driven by tachyonic matter, Phys. Rev. D, 66, 021301 (2002). J. Lu, Cosmology with a variable generalized Chaplygin gas, Physics Letters B, 680, 404-410 (2009)M.Jamil, K. Karami and A. Sheykhi, Restoring New Agegraphic Dark Energy in RS II Braneworld, Int. J. Theor. Phys., 50, 3069 (2011).A. Pasqua, A. Khodam-Mohammadi, M. Jamil and R. Myrzakulov, Astrophys. Space Sci., 340, 199 (2012).
Year 2019, Volume: 2 Issue: 1, 98 - 102, 30.01.2019
https://doi.org/10.33773/jum.506503

Abstract

References

  • S. Perlmutter, et al., Measurements of Omega and Lambda from 42 High-Redshift Supernovae, Astrophys. J., 517, 565 (1999).C.L. Bennet, et al., First-Year Wilkinson Microwave Anisotropy Probe (WMAP) Observations: Preliminary Maps and Basic Results, Astrophys. J. Suppl., 148, 1 (2003). M. Tegmark, et al., Cosmological parameters from SDSS and WMAP, Phys. Rev. D, 69, 103501(2004). A.W. Allen, et al., Constraints on dark energy from Chandra observations of the largest relaxed galaxy clusters, Mon. Not. R. Astron. Soc., 353, 457 (2004).P.A.R. Ade, et al., Planck 2013 results - XII. Component separation, A&A 571, A12 (2014).P.A.R. Ade, et al., Planck 2015 results - XIII. Cosmological parameters, A&A 594, A13 (2016).M.F. Wondrak, The Cosmological Constant and its Problems: A Review of Gravitational Aether, e-Print: gr-qc/1705.06294 V. Sahni, Dark matter and dark energy, Lect. Notes Phys., 653, 141-180 (2004). E.J. Copeland, M. Sami and S. Tsujikawa, Dynamics of dark energy, Int. J. Mod. Phys. D,15, 1753 (2006). R.R. Caldwell, A Phantom Menace? Cosmological consequences of a dark energy component with super-negative equation of state, Phys. Lett. B, 545, 23-29 (2002).B. Feng, X. L. Wang and X. M. Zhang, Dark Energy Constraints from the Cosmic Age and Supernova, Phys. Lett. B, 607, 35 (2005).T. Chiba, T. Okabe and M. Yamaguchi, Kinetically driven quintessence, Phys. Rev. D, 62, 023511 (2000).A. Yu. Kamenshchik, U. Moschella and V. Pasquier, An alternative to quintessence, Phys. Lett. B, 511, 265 (2001).J. Christensen-Dalsgard, Lecture Notes on Stellar Structure and Evolution, Aarhus Univ. Press, Aarhus, p.13 (2004).M. Salti, O. Aydogdu, H. Yanar and K. Sogut, Variable generalized Chaplygin gas in a 5D cosmology, Annals of Physics, 390, 131-142 (2018). M. Askin, M. Salti and O. Aydogdu, Cosmology via thermodynamics of Polytropic gas, Mod. Phys. Lett. A, Vol.32, No.32, 1750177 (2017). B. Boisseau, G. Esposito-Farese, D. Polarski and A. A. Starobinsky, Reconstruction of a scalar-tensor theory of gravity in an accelerating universe, Phys. Rev. Lett., 85, 2236 (2000). S. Capozziello, Curvature Quintessence, Int. J. Mod. Phys. D, 11, 483 (2002). V. Faraoni, f(R)-gravity: Successes and challenges, XVIII Congresso SIGRAV General Relativity and Gravitational Physics, Cosenza, 2225 September (2008). S. Capozziello, R. Cianci, C. Stornaiolo and S. Vignolo, f(R) Cosmology with torsion, Phys. Scr., 78, 065010 (2008). H. Abedi and M. Salti, Multiple field modifed gravity and localized energy in teleparallel framework, Gen. Rel. Grav., 47, 93 (2015). M. Askin, H. Abedi and M. Salti, Thermodynamics in f(T; )-gravity, Rom. J. Phys., Vol.60, Nos.1-2, 44-55 (2015). M. Salti, M. Korunur, I Acikgoz, N. Princcioglu and F. Binbay, f(T;R) theory of gravity, Int. J. Mod. Phys. D, 27, 1850062 (2018). O. Klein, Quantentheorie und funfdimensionale Relativitatstheorie, Zeits. Phys., 37, 895 (1926).T. Kaluza, On the Unication Problem in Physics, Sits. Press. Akad. Wiss. Math. Phys., K1, 895 (1921).G. Calcagni, Fractal universe and quantum gravity, Phys. Rev. Lett., 104, 251301 (2010). M. Salti, H. Yanar, O. Aydogdu and K. Sogut, Dynamics of Ghost Scalar Fields in Kaluza-Klein Cosmology, Astrophys. Space Sci., Vol.362, No.11, 207 (2017). I. Acikgoz, F. Binbay, M. Salti and O. Aydogdu, Ghost DBI-essence in fractal geometry, Eur.Phys. J. Plus, 131, 157 (2016).M. Li, X. D. Li, S. Wang and X. Zhang, Holographic dark energy models: A comparison from the latest observational data, J. Cosmol. Astropart. Phys., 06, 036 (2009). Y.-F. Cai, S. Capozziello, M. De Laurentis and E. N. Saridakis, f(T) teleparallel gravity and cosmology, Rept. Prog. Phys., 79, 106901 (2016).X.Y. Yang, Y.B. Wu, J.B. Lu and S. Li, Evolution of Variable Generalized Chaplygin Gas, Chin. Phys. Lett., 24, 302 (2007). G.W. Gibbons, Cosmological Evolution of the Rolling Tachyon, Phys. Lett. B, 537, 1 (2002). A. Mazumdar, S. Panda and A. Perez-Lorenzana, Assisted in ation via tachyon condensation, Nucl. Phys. B, 614, 101 (2001).T. Padmanabhan, Accelerated expansion of the universe driven by tachyonic matter, Phys. Rev. D, 66, 021301 (2002). J. Lu, Cosmology with a variable generalized Chaplygin gas, Physics Letters B, 680, 404-410 (2009)M.Jamil, K. Karami and A. Sheykhi, Restoring New Agegraphic Dark Energy in RS II Braneworld, Int. J. Theor. Phys., 50, 3069 (2011).A. Pasqua, A. Khodam-Mohammadi, M. Jamil and R. Myrzakulov, Astrophys. Space Sci., 340, 199 (2012).
There are 1 citations in total.

Details

Primary Language English
Subjects Mathematical Sciences
Journal Section Research Article
Authors

Mustafa Saltı

Murat Korunur

Kenan Sogut

Oktay Aydoğdu This is me

Publication Date January 30, 2019
Submission Date January 2, 2019
Acceptance Date January 14, 2019
Published in Issue Year 2019 Volume: 2 Issue: 1

Cite

APA Saltı, M., Korunur, M., Sogut, K., Aydoğdu, O. (2019). VARIABLE GENERALIZED CHAPLYGIN GAS AS A SCALAR FIELD DARK ENERGY MODEL. Journal of Universal Mathematics, 2(1), 98-102. https://doi.org/10.33773/jum.506503
AMA Saltı M, Korunur M, Sogut K, Aydoğdu O. VARIABLE GENERALIZED CHAPLYGIN GAS AS A SCALAR FIELD DARK ENERGY MODEL. JUM. January 2019;2(1):98-102. doi:10.33773/jum.506503
Chicago Saltı, Mustafa, Murat Korunur, Kenan Sogut, and Oktay Aydoğdu. “VARIABLE GENERALIZED CHAPLYGIN GAS AS A SCALAR FIELD DARK ENERGY MODEL”. Journal of Universal Mathematics 2, no. 1 (January 2019): 98-102. https://doi.org/10.33773/jum.506503.
EndNote Saltı M, Korunur M, Sogut K, Aydoğdu O (January 1, 2019) VARIABLE GENERALIZED CHAPLYGIN GAS AS A SCALAR FIELD DARK ENERGY MODEL. Journal of Universal Mathematics 2 1 98–102.
IEEE M. Saltı, M. Korunur, K. Sogut, and O. Aydoğdu, “VARIABLE GENERALIZED CHAPLYGIN GAS AS A SCALAR FIELD DARK ENERGY MODEL”, JUM, vol. 2, no. 1, pp. 98–102, 2019, doi: 10.33773/jum.506503.
ISNAD Saltı, Mustafa et al. “VARIABLE GENERALIZED CHAPLYGIN GAS AS A SCALAR FIELD DARK ENERGY MODEL”. Journal of Universal Mathematics 2/1 (January 2019), 98-102. https://doi.org/10.33773/jum.506503.
JAMA Saltı M, Korunur M, Sogut K, Aydoğdu O. VARIABLE GENERALIZED CHAPLYGIN GAS AS A SCALAR FIELD DARK ENERGY MODEL. JUM. 2019;2:98–102.
MLA Saltı, Mustafa et al. “VARIABLE GENERALIZED CHAPLYGIN GAS AS A SCALAR FIELD DARK ENERGY MODEL”. Journal of Universal Mathematics, vol. 2, no. 1, 2019, pp. 98-102, doi:10.33773/jum.506503.
Vancouver Saltı M, Korunur M, Sogut K, Aydoğdu O. VARIABLE GENERALIZED CHAPLYGIN GAS AS A SCALAR FIELD DARK ENERGY MODEL. JUM. 2019;2(1):98-102.