Measuring Mass and Spin of Dark Matter Particles with the Aid Energy Spectra of Single Lepton and Dijet at the e+e- Linear Collider

I. F. Ginzburg

doi:10.4236/jmp.2014.511105

Home > Journals > Physics & Mathematics > JMP

JMP> Vol.5 No.11, June 2014

Share This Article:

Open Access

Measuring Mass and Spin of Dark Matter Particles with the Aid Energy Spectra of Single Lepton and Dijet at the e⁺e^- Linear Collider

Abstract Full-Text HTML XML

Download as PDF (Size:516KB) PP. 1036-1049

DOI: 10.4236/jmp.2014.511105 2,669 Downloads 3,464 Views Citations

Author(s) Leave a comment

I. F. Ginzburg

Affiliation(s)

1Sobolev Institute of Mathematics, Novosibirsk, Russia 2Novosibirsk State University, Novosibirsk, Russia.

ABSTRACT

In many models stability of Dark Matter particles D is ensured by conservation of a new quantum number referred to as D -parity. Our models also contain charged D -odd particles D^± with the same spin as D. (For more information,please refer to the PDF.)

KEYWORDS

Dark Matter, W-Boson, Lepton, Linear Collider

Conflicts of Interest

The authors declare no conflicts of interest.

Cite this paper

Ginzburg, I. (2014) Measuring Mass and Spin of Dark Matter Particles with the Aid Energy Spectra of Single Lepton and Dijet at the e⁺e^- Linear Collider. Journal of Modern Physics, 5, 1036-1049. doi: 10.4236/jmp.2014.511105.

References

[1]	Hooper, D. (2009) TASI 2008 Lectures on Dark Matter. arXiv:0901.4090 [hep-ph]

[2]	Maniatis, M. (2009) The Next-to-Minimal Supersymmetric extension of the Standard Mod. arXiv:0906.0777 [hep-ph]

[3]	Kazakov, D.I. (2010) Supersymmetry on the Run: LHC and Dark Matter. arXiv:1010.5419 [hep-ph]

[4]	Ellis, J. (2010) New Light on Dark Matter from the LHC. arXiv:1011.0077 [hep-ph]

[5]	Li, Y. and Domerotski, A. (2010) Chargino and Neutralino Masses at ILC. arXiv: 1007.0698

[6]	Asano, M., Fujii, K., Hundi, R.S., Itoh, H., Matsumoto, S., Okada, N., Saito, T., Suehara, T., Takubo, Y. and Yamamoto, H. (2011) Identification of new physics and general WIMP search at the ILC. arXiv:1007.2636 [hep-ph]

[7]	Deshpande, N.G. and Ma, E. (1978) Physical Review D, 18, 2574-2576. http://dx.doi.org/10.1103/PhysRevD.18.2574

[8]	Barbieri, R., Hall, L.J. and Rychkov, V.S. (2006) Improved Naturalness with a Heavy Higgs: An Alternative Road to LHC Physics. arXiv:hep-ph/0603188.

[9]	Ginzburg, I.F., Kanishev, K.A., Krawczyk, M. and Sokolowska, D. (2010) Evolution of Universe to the present inert phase. arXiv:1009.4593 [hep-ph]

[10]	Gustafsson, M., Rydbeck, S., Lopez-Honorez, L. and Lundstrom, E. (2012) Physical Review D, 86, Article ID: 075019. http://dx.doi.org/10.1103/PhysRevD.86.075019

[11]	Espirito Santo, M., Hultqvist, K., Johansson, P. and Lipniacka, A. (2003) DELPHI 2003-002 PHYS 928. http://delphiwww.cern.ch/pubxx/delnote/dn2003.html

[12]	Lundstrom, E., Gustafsson, M. and Edsjo, J. (2009) Inert Doublet Model and LEP II Limits. arXiv:0810.3924 [hep-ph]

[13]	Aoki, M., Kanemura, S. and Yokoya, H. (2013) Reconstruction of Inert Doublet Scalars at the International Linear Collider. arXiv:1303.6191 [hep-ph]

[14]	Dolle, E.M. and Su, S. (2009) Physical Review D, 80, Article ID: 055012. http://dx.doi.org/10.1103/PhysRevD.80.055012

[15]	Dolle E., Miao X., Su S., Thomas B. (2010) Physical Review D, 81, Article ID: 035003. http://dx.doi.org/10.1103/PhysRevD.81.035003

[16]	Lopez Honorez, L., Nezri, E., Oliver, J.F. and Tytgat, M.H.G. (2007) The Inert Doublet Model: An Archetype for Dark Matter. arXiv:0612275 [hep-ph]

[17]	Nezri, E., Tytgat, M.Y.G. and Vertongen, G. (2009) Positrons and antiprotons from inert doublet model dark matter. arXiv:0901.2556 [hep-ph]

[18]	Andreas, S., Hambye, T. and Tytgat, M.H.G. (2008) WIMP Dark Matter, Higgs Exchange and DAMA. arXiv: 0808.0255 [hep-ph]

[19]	Honorez, L.L. and Yaguna, C.E. (2010) The Inert Doublet Model of Dark Matter Revisited. arXiv:1003.3125 [hep-ph]

[20]	Particle Data Group (2012) Physical Review D, 86, Article ID: 010001. http://dx.doi.org/10.1103/PhysRevD.86.010001

[21]	Heuer, R.D., et al. (2001) TESLA Technical Design Report, DESY 2001-011, TESLA Report 2001-23, TESLA FEL 2001-05.

[22]	International Linear Collider TDR (2013) The International Linear Collider Technical Design Report—Volume 2: Physics. arXiv:1306.6352 [hep-ph]

[23]	Moortgat-Pick, G. (2008) Journal of Physics: Conference Series, 110, Article ID: 072027. http://dx.doi.org/10.1088/1742-6596/110/7/072027

[24]	Freitas, A., Martyn, H.U., Nauenberg, U. and Zerwas, P.M. (2004) Sleptons: Masses, Mixings, Couplings. arXiv: hepph/0409129

[25]	Conley, J.A., Dreiner, H.K. and Wienemann, P. (2012) Measuring a Light Neutralino Mass at the ILC: Testing the MSSM Neutralino Cold Dark Matter Model. arXiv:1012.1035 [hep-ph]

[26]	Ginzburg, I.F (2010) Simple and robust method for search Dark Matter particles and measuring their properties at ILC in various models of DM. arXiv:1010.5579 [hep-ph]