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Karanlık Madde Etkin Alan Teorisinde Simülasyon Araçları Uygulamaları

Year 2021, , 56 - 59, 30.04.2021
https://doi.org/10.47769/izufbed.871109

Abstract

Bu çalışmada karanlık maddeye en alternatif aday olan Zayıf Etkileşen Kütleli Parçacık (WIMP) ile Parçacık Fiziği’nin Standart Model parçacıkları arasındaki etkileşmelerini inceledik. Bunun için ağaç seviyesinde 6-Boyutlu Etkin Alan Teorisi yaklaşımını kullandık. Etkin Alan Teorisi modelini açık kaynak kodlu yazılım olan FeynRules’a dahil edip, daha sonra MADGraph5_AMC@NLO’ın MadDM yazılım aracı yardımıyla kalıntı bolluğunu hesaplayıp, uygun kalıntı bolluğu veren parametre aralıkları ile modeli sınırlandırdık.

References

  • [1]  Belyaev, A, Christensen, N. D., Pukhoc, A. (13). CalcHEP 3.4 for collider physics within and beyond the Standard Model. Comput. Phys. Com- mun., 184, 7, 1729-1769 s.

  • [2]  Belanger, G., Boudiema, F., Pukhov, A., Semenov, A. (2007). MicrOMEGAs 2.0: A program to calculate the relic density of dark matter in generic model. Comput. Phys. Commun, 176, 5, 367-382. 

  • [3]  Belanger, G., Boujdema, F., Pukhov, A., Semenov, A. (2002). micrOMEGAs: A program for calculating the relic density in the MSSM. Comput. Phys. Commun. 149, 2,103-120. 

  • [4]  Wilkinson Microwave Anisotropy Probe (WMAP). “WMAP 9 Years Mission Results”. https://map.gsfc.nasa.gov/news/ 

  • [5]  Zhang, H., Qing-Hong, C., Chen, C. R., Li C. S. (2011). Effective dark matter model: relic density, CDMS II, Fermi-LAT and LHC. JHEP, 2011:08, 18, 1-48.

  • [6]  Kuday, A. E., Özok F., Saka, E. U. (2020). ’Probing dark matter via efective field theory approach’, IJGMMP, 17, 2, 2050028. 

  • [7] Alloul A., Christensen N. D., Degrande C., Duhr C., Fuks B. (2014). FeynRules 2.0 — A complete toolbox for tree-level phenomenology. Computer Physics Comm., 185, 8, 2250-2300.
  • [8] Ambrogi F., Arina C., Backovic M., Heisig J., Maltoni F., Mantani L., Mattelaer O., Mohlabeng.G. (2019). MadDM v.3.0: a Comprehensive Tool for Dark Matter Studies. Phys. Dark Univ. 24, 100249.

Applications of Simulation Tools in Dark Matter Effective Field Theory

Year 2021, , 56 - 59, 30.04.2021
https://doi.org/10.47769/izufbed.871109

Abstract

In this study, we examined the interactions between the Weak Interacting Mass Particle (WIMP), that is the most alternative candidate for dark matter, and the Standard Model particles of Particle Physics. Therefore, we used the 6-Dimensional Effective Field Theory approach at the tree level. We included the Effective Field Theory model in the open source software FeynRules, then calculate the residue abundance with the help of MADGraph5_AMC @ NLO's MadDM software, and limit the model parameters in ranges that give appropriate residue abundance.

References

  • [1]  Belyaev, A, Christensen, N. D., Pukhoc, A. (13). CalcHEP 3.4 for collider physics within and beyond the Standard Model. Comput. Phys. Com- mun., 184, 7, 1729-1769 s.

  • [2]  Belanger, G., Boudiema, F., Pukhov, A., Semenov, A. (2007). MicrOMEGAs 2.0: A program to calculate the relic density of dark matter in generic model. Comput. Phys. Commun, 176, 5, 367-382. 

  • [3]  Belanger, G., Boujdema, F., Pukhov, A., Semenov, A. (2002). micrOMEGAs: A program for calculating the relic density in the MSSM. Comput. Phys. Commun. 149, 2,103-120. 

  • [4]  Wilkinson Microwave Anisotropy Probe (WMAP). “WMAP 9 Years Mission Results”. https://map.gsfc.nasa.gov/news/ 

  • [5]  Zhang, H., Qing-Hong, C., Chen, C. R., Li C. S. (2011). Effective dark matter model: relic density, CDMS II, Fermi-LAT and LHC. JHEP, 2011:08, 18, 1-48.

  • [6]  Kuday, A. E., Özok F., Saka, E. U. (2020). ’Probing dark matter via efective field theory approach’, IJGMMP, 17, 2, 2050028. 

  • [7] Alloul A., Christensen N. D., Degrande C., Duhr C., Fuks B. (2014). FeynRules 2.0 — A complete toolbox for tree-level phenomenology. Computer Physics Comm., 185, 8, 2250-2300.
  • [8] Ambrogi F., Arina C., Backovic M., Heisig J., Maltoni F., Mantani L., Mattelaer O., Mohlabeng.G. (2019). MadDM v.3.0: a Comprehensive Tool for Dark Matter Studies. Phys. Dark Univ. 24, 100249.
There are 8 citations in total.

Details

Primary Language Turkish
Journal Section Articles
Authors

Ayşe Kuday

Erdinç Saka 0000-0001-9630-7362

Ferhat Özok 0000-0001-5531-9252

Publication Date April 30, 2021
Submission Date January 30, 2021
Acceptance Date February 24, 2021
Published in Issue Year 2021

Cite

APA Kuday, A., Saka, E., & Özok, F. (2021). Karanlık Madde Etkin Alan Teorisinde Simülasyon Araçları Uygulamaları. İstanbul Sabahattin Zaim Üniversitesi Fen Bilimleri Enstitüsü Dergisi, 3(1), 56-59. https://doi.org/10.47769/izufbed.871109

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