Peltier Coefficient and Photon-Assisted Tunnelling in Quantum Point Contact
Arafa H. Aly
Department of Physics, Zaragoza University, Zaragoza, 50009, SpainDepartment of Physics, Inha University, 402-751, South KoreaDepartment of Physics, Faculty of Sciences, Beni-Suef University, Egypt
Peltier Coefficient and Photon-Assisted Tunnelling in Quantum Point Contact
Arafa H. Aly
Department of Physics, Zaragoza University, Zaragoza, 50009, SpainDepartment of Physics, Inha University, 402-751, South KoreaDepartment of Physics, Faculty of Sciences, Beni-Suef University, Egypt
摘要We present the Peltier coefficient and thermal transport in quantum point contact (QPC), under the influence of external fields and different temperatures. Also we obtain the oscillations of the Peltier coefficient in external fields. Numerical calculations of the Peltier coefficient are performed at different applied voltages, amplitudes and temperatures. The obtained results are consistent with the experimental data in the literature.
Abstract:We present the Peltier coefficient and thermal transport in quantum point contact (QPC), under the influence of external fields and different temperatures. Also we obtain the oscillations of the Peltier coefficient in external fields. Numerical calculations of the Peltier coefficient are performed at different applied voltages, amplitudes and temperatures. The obtained results are consistent with the experimental data in the literature.
Arafa H. Aly. Peltier Coefficient and Photon-Assisted Tunnelling in Quantum Point Contact[J]. 中国物理快报, 2008, 25(12): 4399-4401.
Arafa H. Aly. Peltier Coefficient and Photon-Assisted Tunnelling in Quantum Point Contact. Chin. Phys. Lett., 2008, 25(12): 4399-4401.
[1] Butcher P N 1990 J. Phys. Condens. Matter 24869 [2] van Wees B J, van Houten H, Beenakker C W J, Williamson JG, Kouwenhoven L P, van der Marel D and Foxon C T 1988 Phys.Lett. 60 848 [3] Wharam D A, Thornton T J, Newbury R, Pepper M, Ahmed H,Frost J E F, Hasko D G, Peacock D C, Ritchie D A and Jones G A C1988 J. Phys. C 21 L209 [4] Aly A H and Phillips A H 2002 Phys. Status SolidiB 232 283 Glazman L I, Lesovik G B, Khmel'nitskii D E and Shekhter R I1988 Zh. Eksp. Theor. Fiz. 48 218 [1988 Sov. Phys.JETP Lett. 48 238] [5] Streda P 1989 J. Phys. Conden. Matter 110256 Proetto C R 1991 Phys. Rev. B 44 9096 [6] van Houten H, Molenkamp L W, Beenakker C W J and FoxonC T1992 Semicon. Sci. Technol. B 7 215 [7] Li D, Huxtable S T, Abramson A R and Majumdar A 2005 J. Heat Transfer 127 108 [8] Tando, Arakawa Y, Furuya K, Komiyama S and Nakashima H1998 Mesoscopic Physics and Electronics (Singapore: Springer) [9] Bogachek E N, Kulik I O and Shkorbatov A G 1985 Fiz. Nizk. Temp. 11 1189 [1985 Sov. J. Low Temp. Phys. 11 656] [10] Sivan U and Imry Y 1986 Phys. Rev. B 33 551 [11] Landauer R 1970 Philos. Mag. 21 863 [12] Glazman L I and Khaetskii A V 1988 Zh. Eksp. Teor.Fiz. 48 546 [1988 Sov. Phys. JETP Lett. 48 591] [13] Beenakker C W J and van Houten H 1991 Solid StatePhys. 44 [14] Buttiker M 1990 Phys. Rev. B 41 7906 [15] Fertig H A and Halperin B I 1987 Phys. Rev. B 36 7969 [16] Aly A H and Douari J 2007 Mod. Phys. Lett. B 21 703 van Hffelen W M et al 1993 Phys. Rev. B 475170