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Year 2025, , 9 - 12, 26.03.2025
https://doi.org/10.46810/tdfd.1532823

Abstract

References

  • Singh GP, Kotambkar S, Srivastava D, Pradhan A, A New Class of Higher Dimensional Cosmological Models of Universe with Variable and terms, Rom. Journ. Phys., Vol. 53, Nos. 3â€``4, (2008), 607â€``618.
  • Einstein A, Zur Allgemeinen Relativitätstheorie, Preussische Akademie der Wissenschaften., 47, (1915), 778.
  • Ade PAR, et al., Planck 2013 results. XII. Diffuse component separation A A 571, A12 (2014), DOI:10.1051/0004-6361/201321580.
  • Ade PAR, et al., Planck 2015 results. XIII. Cosmological parameters A A 594, A13 (2016), DOI: 10.1051/0004-6361/201525830.
  • Allen SW, et al., Constraints on dark energy from Chandra observations of the largest relaxed galaxy clusters, Mon. Not. R. Astron. Soc., 353 (2) (2004), 457-467.
  • Bennet CL, et al., First Year Wilkinson Microwave Anisotropy Probe (WMAP) Observations: Preliminary Maps and Basic Results, Astrophys. J. Suppl., (2003), 148, 1.
  • Perlmutter S, et al., Measurements of and from High-Redshift Supernovae, Astrophys. J., (1998), 517-565.
  • Tegmark M, et al., Cosmological Parameters from SDSS and WMAP, Phys. Rev. D., (2004), 69, 103501.
  • Keskin AI, Saltı M, Cosmographic nature of the early universe from extra dimensional perspective, Physics Letters B., 791, (2019),
  • doi.org/10.1016/j.physletb.2019.02.024, 80-85.
  • Caldwell RR, A Phantom Menace? Cosmological consequences of a dark energy component with super-negative equation of state, Phys.Lett. B., 545, (2002), 23-29.
  • Chiba T, Okabe T and Yamaguchi M, Kinetically driven quintessence, Phys. Rev. D., 62, 023511(2000).
  • Copeland EJ, Sami M and Tsujikawa S, Dynamics of Dark Energy, Int. Journal of Modern Phys. D., 15, 11 (2006), 1753-1935.
  • Abedi H and M. Saltı M, Multiple field modified gravity and localized energy in teleparallel framework, Gen. Rel. Grav., 47:93, (2015).
  • Askin M, Abedi H and Saltı M, Thermodynamics in Gravity, Rom. J. Phys., 60 (2015), 44-55.
  • Boisseau B, et al., Reconstruction of a Scalar-Tensor Theory of Gravity in an Accelerating Universe, Phys Rev Lett., 2000, 85(11):2236-9.
  • Capozziello S, et al., Cosmology with Torsion,â€,Physica Scripta, 78(6) 2008.
  • Askin M, Salti M and Aydogdu O, Cosmology via thermodynamics of polytropic gas, Modern Physics Letters A., 32, 1750177, 2017.
  • Christensen Dalsgaard J, Lecture Notes on Stellar Structure and Evolution, Aarhus Univ. Press, 2004.
  • Yu A, Kamenshchik A, Moschella U, Pasquier V, An alternative to quintessence, Physics Letters B., 511, 2001, 265-268.
  • Tripathi A, Sangwan A and Jassal HK, Dark energy equation of state parameter and its evolution at low redshift, Journal of Cosmology and Astroparticle Physics, 06 (2017) 012.
  • Carrillo JAE, Silva JM and Lima JAS, Astronomy and Relativistic Astrophysics: New Phenomena and New States of Matter in the Universe, in Proceedings of the Third Workshop (Joo Pessoa, Paraba, Brazil, 3-6 October 2007), 183-192.
  • Jamil M, Karami K and Sheykhi A, Restoring New Agegraphic Dark Energy in RS II Braneworld, Int. J. Theor. Phys., 50 (2011) 3069-3077.
  • Pasqua A, Khodam-Mohammadi A, Jamil M, Myrzakulov R, Interacting Ricci dark energy with logarithmic correction, Astrophysics and Space Science, 340 (2012) 199-208.
  • Zengin B, Askin M, Salti M and Aydogdu O, Thermal Device Beyond the Carnot Limit, Proceedings of the National Academy of Sciences, India Section A: Physical Sciences, 93 (2023) 177-183.
  • Askin M, Salti M and Aydogdu O, Polytropic Carnot heat engine, Modern Physics Letters A 34 (2018) 1950197.

A Method for n-Dimensional Reconstruction of Scalar Field Proposals

Year 2025, , 9 - 12, 26.03.2025
https://doi.org/10.46810/tdfd.1532823

Abstract

In the present study, we mainly implement a correspondence between two different concepts of dark energy via reverse engineering tecnique. We show that one can find exact expressions for a scalar field function and its self-interacting potential by making use of such correspondence.

References

  • Singh GP, Kotambkar S, Srivastava D, Pradhan A, A New Class of Higher Dimensional Cosmological Models of Universe with Variable and terms, Rom. Journ. Phys., Vol. 53, Nos. 3â€``4, (2008), 607â€``618.
  • Einstein A, Zur Allgemeinen Relativitätstheorie, Preussische Akademie der Wissenschaften., 47, (1915), 778.
  • Ade PAR, et al., Planck 2013 results. XII. Diffuse component separation A A 571, A12 (2014), DOI:10.1051/0004-6361/201321580.
  • Ade PAR, et al., Planck 2015 results. XIII. Cosmological parameters A A 594, A13 (2016), DOI: 10.1051/0004-6361/201525830.
  • Allen SW, et al., Constraints on dark energy from Chandra observations of the largest relaxed galaxy clusters, Mon. Not. R. Astron. Soc., 353 (2) (2004), 457-467.
  • Bennet CL, et al., First Year Wilkinson Microwave Anisotropy Probe (WMAP) Observations: Preliminary Maps and Basic Results, Astrophys. J. Suppl., (2003), 148, 1.
  • Perlmutter S, et al., Measurements of and from High-Redshift Supernovae, Astrophys. J., (1998), 517-565.
  • Tegmark M, et al., Cosmological Parameters from SDSS and WMAP, Phys. Rev. D., (2004), 69, 103501.
  • Keskin AI, Saltı M, Cosmographic nature of the early universe from extra dimensional perspective, Physics Letters B., 791, (2019),
  • doi.org/10.1016/j.physletb.2019.02.024, 80-85.
  • Caldwell RR, A Phantom Menace? Cosmological consequences of a dark energy component with super-negative equation of state, Phys.Lett. B., 545, (2002), 23-29.
  • Chiba T, Okabe T and Yamaguchi M, Kinetically driven quintessence, Phys. Rev. D., 62, 023511(2000).
  • Copeland EJ, Sami M and Tsujikawa S, Dynamics of Dark Energy, Int. Journal of Modern Phys. D., 15, 11 (2006), 1753-1935.
  • Abedi H and M. Saltı M, Multiple field modified gravity and localized energy in teleparallel framework, Gen. Rel. Grav., 47:93, (2015).
  • Askin M, Abedi H and Saltı M, Thermodynamics in Gravity, Rom. J. Phys., 60 (2015), 44-55.
  • Boisseau B, et al., Reconstruction of a Scalar-Tensor Theory of Gravity in an Accelerating Universe, Phys Rev Lett., 2000, 85(11):2236-9.
  • Capozziello S, et al., Cosmology with Torsion,â€,Physica Scripta, 78(6) 2008.
  • Askin M, Salti M and Aydogdu O, Cosmology via thermodynamics of polytropic gas, Modern Physics Letters A., 32, 1750177, 2017.
  • Christensen Dalsgaard J, Lecture Notes on Stellar Structure and Evolution, Aarhus Univ. Press, 2004.
  • Yu A, Kamenshchik A, Moschella U, Pasquier V, An alternative to quintessence, Physics Letters B., 511, 2001, 265-268.
  • Tripathi A, Sangwan A and Jassal HK, Dark energy equation of state parameter and its evolution at low redshift, Journal of Cosmology and Astroparticle Physics, 06 (2017) 012.
  • Carrillo JAE, Silva JM and Lima JAS, Astronomy and Relativistic Astrophysics: New Phenomena and New States of Matter in the Universe, in Proceedings of the Third Workshop (Joo Pessoa, Paraba, Brazil, 3-6 October 2007), 183-192.
  • Jamil M, Karami K and Sheykhi A, Restoring New Agegraphic Dark Energy in RS II Braneworld, Int. J. Theor. Phys., 50 (2011) 3069-3077.
  • Pasqua A, Khodam-Mohammadi A, Jamil M, Myrzakulov R, Interacting Ricci dark energy with logarithmic correction, Astrophysics and Space Science, 340 (2012) 199-208.
  • Zengin B, Askin M, Salti M and Aydogdu O, Thermal Device Beyond the Carnot Limit, Proceedings of the National Academy of Sciences, India Section A: Physical Sciences, 93 (2023) 177-183.
  • Askin M, Salti M and Aydogdu O, Polytropic Carnot heat engine, Modern Physics Letters A 34 (2018) 1950197.
There are 26 citations in total.

Details

Primary Language English
Subjects Mathematical Aspects of General Relativity
Journal Section Articles
Authors

Burçin Doğan 0000-0001-8386-213X

Early Pub Date March 26, 2025
Publication Date March 26, 2025
Submission Date August 14, 2024
Acceptance Date November 26, 2024
Published in Issue Year 2025

Cite

APA Doğan, B. (2025). A Method for n-Dimensional Reconstruction of Scalar Field Proposals. Türk Doğa Ve Fen Dergisi, 14(1), 9-12. https://doi.org/10.46810/tdfd.1532823
AMA Doğan B. A Method for n-Dimensional Reconstruction of Scalar Field Proposals. TDFD. March 2025;14(1):9-12. doi:10.46810/tdfd.1532823
Chicago Doğan, Burçin. “A Method for N-Dimensional Reconstruction of Scalar Field Proposals”. Türk Doğa Ve Fen Dergisi 14, no. 1 (March 2025): 9-12. https://doi.org/10.46810/tdfd.1532823.
EndNote Doğan B (March 1, 2025) A Method for n-Dimensional Reconstruction of Scalar Field Proposals. Türk Doğa ve Fen Dergisi 14 1 9–12.
IEEE B. Doğan, “A Method for n-Dimensional Reconstruction of Scalar Field Proposals”, TDFD, vol. 14, no. 1, pp. 9–12, 2025, doi: 10.46810/tdfd.1532823.
ISNAD Doğan, Burçin. “A Method for N-Dimensional Reconstruction of Scalar Field Proposals”. Türk Doğa ve Fen Dergisi 14/1 (March 2025), 9-12. https://doi.org/10.46810/tdfd.1532823.
JAMA Doğan B. A Method for n-Dimensional Reconstruction of Scalar Field Proposals. TDFD. 2025;14:9–12.
MLA Doğan, Burçin. “A Method for N-Dimensional Reconstruction of Scalar Field Proposals”. Türk Doğa Ve Fen Dergisi, vol. 14, no. 1, 2025, pp. 9-12, doi:10.46810/tdfd.1532823.
Vancouver Doğan B. A Method for n-Dimensional Reconstruction of Scalar Field Proposals. TDFD. 2025;14(1):9-12.