Year 2011,
Volume: 1 Issue: 2, 15 - 19, 01.06.2011
Abstract
Bu çalışmada, Dirac ve Majorana nötrinolarının elektromagnetik özellikleri tartışılmıştır. Standart model ötesi fiziğin araştırılmasında önemli bir yeri olan efektif lagranjiyen yöntemi kısaca açıklanmış ve bu yöntemde nötrinoların fotonla etkileşimine olanak sağlayan iki farklı efektif lagranjiyen incelenmiştir
Keywords
References
- Armbruster, B., Eberhard, V., Eichner, C., Eitel, K., Gemmeke, H., Grandegger, W., Hunkel, D., Jannakos, T., Kleifges, M., Kleinfeller, J., Plischke, P., Rapp, J., Weber, J., Wochele, J., Wolf, J., Wölfle, S., Zeitnitz, B., Bodmann, B., Ferstl, M., Finckh, E., Hanika, T., Hehle, M., Hößl, J., Kretschmer, W., Schmidt, H., Stumm, O., Maschuw, R., Edgington, JA., Seligmann, B., Dodd, AC., Booth, NE. 1994. KARMEN: neutrino physics at ISIS. Prog. Nucl. Part. Phys., 32: 351-373.
- Babu, KS., Mathur, VS. 1987. Magnetic moments of Dirac and Majorana neutrinos. Phys. Lett. B, 196: 218-222.
- Bell, NF., Cirigliano, V., Ramsey-Musolf, MJ., Vogel, P., Wise, MB. 2005. How Magnetic is the Dirac Neutrino?. Phys. Rev. Lett. 95: 151802-06.
- Bemporad, C., Gratta, G., Vogel, P. 2002. Reactor- based neutrino oscillation experiments. Rev. Mod. Phys., 74: 297-328.
- Bennett, CL., Hill, RS., Hinshaw, G., Notla, MR., Odegard, N., Page, L., Spergel, DN., Weiland, JL., Wright, EL., Halpern, M., Jarosik, N., Kogut, A., Limon, M., Meyer, SS., Tucker, GS., Wollack, E. 2003. First Year Wilkinson Microwave Observations: Determination of Cosmological Parameters. Astrophys. J. Suppl. 148:175-194.
- Boehm, F., Busenitz, J., Cook, B., Gratta, G., Henrikson, H., Kornis, J., Lawrence, D., Lee, KB., McKinny, K., Miller, L., Novikov, V., Piepke, A., Ritchie, B., Tracy, D., Vogel, P., Wang, YF., Wolf, J. 2001. Final results from the Palo Verde neutrino oscillation experiment. Phys. Rev. D, 64: 112001-10.
- Buchmüller, W., Wyler, D. 1986. Effective lagrangian analysis of new interactions and flavour conservation. Nuclear Physics, B, 268: 621- 653.
- Cowsik, R., McClelland, J. 1972. An Upper Limit on the Neutrino Rest Mass. Phys. Rev. Lett., 29: 669- 670.
- Drexlin, G. 1994. KARMEN: neutrino physics at ISIS. Prog. Nucl. Part. Phys., 32: 351-373.
- Fukugida, M., Yanagida, T. 1987. Particle-physics model for Voloshin-Vysotsky-Okun solution to the solar-neutrino problem. Phys. Rev. Lett., 58: 1807-1809.
- Ghosh, RK. 1984. Study of the decay j i Phys. Rev. D, 29: 493-501.
- Gninenko, SN., Krasnikov, NV. 1999. Limits on the magnetic moment of sterile neutrino and two- photon neutrino decay. Phys. Lett. B, 450: 165-172.
- Kim, CW., Pevsner, A. 1993. Massive Neutrinos in Physics and Astrophysics, Harwood Academic, USA, 247 s.
- Larios, F., Martínez R., Pérez, MA. 1995. Constraints on i Lett. B, 345: 259-262. e, . Phys. , e. Phys.
- Lee, BW., Shrock, RE. 1977. Natural suppression of symmetry violation in gauge theories: Muon- and electron-lepton-number nonconservation. Phys. Rev. D, 16: 1444-1473.
- Liu, J. 1991. Low energy neutrino-two-photon interactions. Phys. Rev. D, 44: 2879- 2891.
- Marciano, WJ., Sanda, AI. 1977. Exotic decays of the muon and heavy leptons in gauge theories. Phys. Lett. B, 67: 303-305.
- Maya, M., Pérez, A., Tavares-Velasco, G., Vega, B. 1998. A direct constraint on dimension-eight operators from Z 357.
- Nieves, JF. 1983. Two photon decay of heavy neutrinos. Phys. Rev. D, 28: 1664-1670.
- Pal, PB. 1992. Particle physics confronts the solar neutrıno problem. Int. J. Mod. Phys. A, 7: 5387- 5460.
- Piepke, A. 2001. KamLAND: A reactor neutrino experiment testing the solar neutrino anomaly. Nucl. Phys. B (Proc. Suppl.), 91: 99-104.
Year 2011,
Volume: 1 Issue: 2, 15 - 19, 01.06.2011
Abstract
ÖzetBu çalışmada, Dirac ve Majorana nötrinolarının elektromagnetik özellikleri tartışılmıştır. Standart model ötesi fiziğin araştırılmasında önemli bir yeri olan efektif lagranjiyen yöntemi kısaca açıklanmış ve bu yöntemde nötrinoların fotonla etkileşimine olanak sağlayan iki farklı efektif lagranjiyen incelenmiştir. Anahtar Kelimeler: Standart Model, Nötrino, Efektif LagranjiyenAbstractIn this paper, we have discussed the electromagnetic properties of Dirac and Majorana neutrinos. The effective lagrangian method which is crucial for physics beyond the standard model, is explained briefly. We have analysed two different effective lagrangians that allow neutrino photon interactions.Keywords: Standart Model, Neutrino, Effective Langrangian
Keywords
References
- Armbruster, B., Eberhard, V., Eichner, C., Eitel, K., Gemmeke, H., Grandegger, W., Hunkel, D., Jannakos, T., Kleifges, M., Kleinfeller, J., Plischke, P., Rapp, J., Weber, J., Wochele, J., Wolf, J., Wölfle, S., Zeitnitz, B., Bodmann, B., Ferstl, M., Finckh, E., Hanika, T., Hehle, M., Hößl, J., Kretschmer, W., Schmidt, H., Stumm, O., Maschuw, R., Edgington, JA., Seligmann, B., Dodd, AC., Booth, NE. 1994. KARMEN: neutrino physics at ISIS. Prog. Nucl. Part. Phys., 32: 351-373.
- Babu, KS., Mathur, VS. 1987. Magnetic moments of Dirac and Majorana neutrinos. Phys. Lett. B, 196: 218-222.
- Bell, NF., Cirigliano, V., Ramsey-Musolf, MJ., Vogel, P., Wise, MB. 2005. How Magnetic is the Dirac Neutrino?. Phys. Rev. Lett. 95: 151802-06.
- Bemporad, C., Gratta, G., Vogel, P. 2002. Reactor- based neutrino oscillation experiments. Rev. Mod. Phys., 74: 297-328.
- Bennett, CL., Hill, RS., Hinshaw, G., Notla, MR., Odegard, N., Page, L., Spergel, DN., Weiland, JL., Wright, EL., Halpern, M., Jarosik, N., Kogut, A., Limon, M., Meyer, SS., Tucker, GS., Wollack, E. 2003. First Year Wilkinson Microwave Observations: Determination of Cosmological Parameters. Astrophys. J. Suppl. 148:175-194.
- Boehm, F., Busenitz, J., Cook, B., Gratta, G., Henrikson, H., Kornis, J., Lawrence, D., Lee, KB., McKinny, K., Miller, L., Novikov, V., Piepke, A., Ritchie, B., Tracy, D., Vogel, P., Wang, YF., Wolf, J. 2001. Final results from the Palo Verde neutrino oscillation experiment. Phys. Rev. D, 64: 112001-10.
- Buchmüller, W., Wyler, D. 1986. Effective lagrangian analysis of new interactions and flavour conservation. Nuclear Physics, B, 268: 621- 653.
- Cowsik, R., McClelland, J. 1972. An Upper Limit on the Neutrino Rest Mass. Phys. Rev. Lett., 29: 669- 670.
- Drexlin, G. 1994. KARMEN: neutrino physics at ISIS. Prog. Nucl. Part. Phys., 32: 351-373.
- Fukugida, M., Yanagida, T. 1987. Particle-physics model for Voloshin-Vysotsky-Okun solution to the solar-neutrino problem. Phys. Rev. Lett., 58: 1807-1809.
- Ghosh, RK. 1984. Study of the decay j i Phys. Rev. D, 29: 493-501.
- Gninenko, SN., Krasnikov, NV. 1999. Limits on the magnetic moment of sterile neutrino and two- photon neutrino decay. Phys. Lett. B, 450: 165-172.
- Kim, CW., Pevsner, A. 1993. Massive Neutrinos in Physics and Astrophysics, Harwood Academic, USA, 247 s.
- Larios, F., Martínez R., Pérez, MA. 1995. Constraints on i Lett. B, 345: 259-262. e, . Phys. , e. Phys.
- Lee, BW., Shrock, RE. 1977. Natural suppression of symmetry violation in gauge theories: Muon- and electron-lepton-number nonconservation. Phys. Rev. D, 16: 1444-1473.
- Liu, J. 1991. Low energy neutrino-two-photon interactions. Phys. Rev. D, 44: 2879- 2891.
- Marciano, WJ., Sanda, AI. 1977. Exotic decays of the muon and heavy leptons in gauge theories. Phys. Lett. B, 67: 303-305.
- Maya, M., Pérez, A., Tavares-Velasco, G., Vega, B. 1998. A direct constraint on dimension-eight operators from Z 357.
- Nieves, JF. 1983. Two photon decay of heavy neutrinos. Phys. Rev. D, 28: 1664-1670.
- Pal, PB. 1992. Particle physics confronts the solar neutrıno problem. Int. J. Mod. Phys. A, 7: 5387- 5460.
- Piepke, A. 2001. KamLAND: A reactor neutrino experiment testing the solar neutrino anomaly. Nucl. Phys. B (Proc. Suppl.), 91: 99-104.
There are 21 citations in total.
Details
| Primary Language | Turkish |
|---|---|
| Journal Section | Research Article |
| Authors | |
| Publication Date | June 1, 2011 |
| Published in Issue | Year 2011 Volume: 1 Issue: 2 |