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Exact Solutions of Non-autonomous Quantum Systems With Semisimple Lie Algebraic Structure

  • For quantum systems with semi-simple Lie algebraic structures,the exact solutions of the equations of motion are obtained by means of algebraic dynamics.The Hamiltonian is transformed into a linear function of Cartan operators by a set of gauge transformations. The coefficients of the gauge transformations are determined by a set of ordinary differential equations.From the inverses of these gauge transformations,the solutions of the Schrodinger equation,as well as a set of dynamic constants of motion (dynamic invariant operators) are obtained. An SU(3) model serves as an example.
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  • [1] Wang S J, Li F L, Weiguny A. Phys. Lett, 1993,A180 (1):189-196[2] Paul W. Rev. Mod. Phys., 1990,62 (3):531-540[3] Brown L S. Phys. Rev. Lett, 1991, 66 (5):527-529[4] Wang S J, Zuo W, Weiguny A et al. Phys. Lett, 1994, A196 (1):7-12; Wang S J, Zuo W. Phys. Lett, 1994, A196 (1):13-19; Zuo W, Wang S J. Acta Physica Sinica, 1995, 44 (9):1353-1362,1363-1372[5] Shore B W, Knihgt P L. J. Mod. Optics, 1993, 40 (7): 1195-1238[6] Yu S, Rauch H, Zhang Y. Phys. Rev., 1995, A52 (4):2585-2590[7] Kibler M, Negadi T. Lett. Nuovo Cimento, 1980, 37 (1):225-229[8] Cornish F H. J. Phys., 1984, A17 (2):323-334.[9] Chen A C, Kibler M. Phys. Rev., 1985, A31 (7):3960-3969[10] Xu B W, Zeng Q. Acta Physica Sinica, 1991, 40 (8):1212-1216[11] Xu B W, Gu W H. Acta Physica Sinica, 1993, 42 (7):1050-1056[12] Wei J, Norman E. J. Math. Phys., 1963, 4 (1):575-582[13] Shi S, Rabitz H. J. Chem. Phys., 1988, 88 (12):7508-7521[14] Gilmore R, Yuan J M. J. Chem. Phys., 1987,86 (1):130-139; 1989,91(2):917-923[15] Recamier J, Micha D A, Gazdy B. Chem. Phys. Lett., 1985, 119(5): 383-387; J. Chem. Phys., 1986,85 (9):5093-5 100[16] Benjamin I. J. Chem. Phys., 1986, 85(10):5611-5624[17] Gilmore R Lie Group, Lie Algebra and Some of Their Applications. New York: Wiley, 1974; Cheng J Q. Group Representation Theory for Physicists. Singapore: World Scientific, 1989[18] Lewis H R J. Math. Phys., 1969, 10 (8):1458-1473[19] Wan Zhexian. Lie Algebra(in Chinese). Beijin: Scientific Press, 1964(万哲先. 李代数. 北京:科学出版社. 1964)[20] Singh S. Phys. Rev., 1982, A25(7):3206-3211[21] Bonatsos D, Daskaloyannis C, Lalazissis G A. Phys. Rev., 1993, A47 (7):3448--3452[22] Khidekel V. Phys. Rev., 1995, E52 (3):2510-2521
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Jie Quanlin, Wang Shunjin and Wei Lianfu. Exact Solutions of Non-autonomous Quantum Systems With Semisimple Lie Algebraic Structure[J]. Chinese Physics C, 1998, 22(2): 111-116.
Jie Quanlin, Wang Shunjin and Wei Lianfu. Exact Solutions of Non-autonomous Quantum Systems With Semisimple Lie Algebraic Structure[J]. Chinese Physics C, 1998, 22(2): 111-116. shu
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Revised: 1900-01-01
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Exact Solutions of Non-autonomous Quantum Systems With Semisimple Lie Algebraic Structure

    Corresponding author: Jie Quanlin,
  • Institute of Modern Physics Southwest Jiaotong University,Chengdu 610031

Abstract: For quantum systems with semi-simple Lie algebraic structures,the exact solutions of the equations of motion are obtained by means of algebraic dynamics.The Hamiltonian is transformed into a linear function of Cartan operators by a set of gauge transformations. The coefficients of the gauge transformations are determined by a set of ordinary differential equations.From the inverses of these gauge transformations,the solutions of the Schrodinger equation,as well as a set of dynamic constants of motion (dynamic invariant operators) are obtained. An SU(3) model serves as an example.

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