Far Infrared Resonance Transition Study of the Chain-End S = 1/2 Modes in an S = 1 Antiferromagnetic Chain
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Abstract
The unpaired spin S = 1/2 states which occur at the ends of an S = 1 Heisenberg-like antiferromagnetic chain, have been observed recently in low-temperature electron spin-resonance measurements of Ni(C2H8N2)2 NO2 ClO4containing selected impurities. We present here a further study on this topic by far infrared transmission spectra under the magnetic field. The splitting of S = 1/2 modes was clearly observed and explained by the interaction of S = 1/2 modes at two nearby chains, which can be separated by vacancy-like defect.
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LU Wei, SHEN Xuechu, LIU Pulin, M. von Ortenberg, J . Tuchendler, J . P. Renard, ZHENG Fen. Far Infrared Resonance Transition Study of the Chain-End S = 1/2 Modes in an S = 1 Antiferromagnetic Chain[J]. Chin. Phys. Lett., 1995, 12(5): 313-316.
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LU Wei, SHEN Xuechu, LIU Pulin, M. von Ortenberg, J . Tuchendler, J . P. Renard, ZHENG Fen. Far Infrared Resonance Transition Study of the Chain-End S = 1/2 Modes in an S = 1 Antiferromagnetic Chain[J]. Chin. Phys. Lett., 1995, 12(5): 313-316.
|
LU Wei, SHEN Xuechu, LIU Pulin, M. von Ortenberg, J . Tuchendler, J . P. Renard, ZHENG Fen. Far Infrared Resonance Transition Study of the Chain-End S = 1/2 Modes in an S = 1 Antiferromagnetic Chain[J]. Chin. Phys. Lett., 1995, 12(5): 313-316.
|
LU Wei, SHEN Xuechu, LIU Pulin, M. von Ortenberg, J . Tuchendler, J . P. Renard, ZHENG Fen. Far Infrared Resonance Transition Study of the Chain-End S = 1/2 Modes in an S = 1 Antiferromagnetic Chain[J]. Chin. Phys. Lett., 1995, 12(5): 313-316.
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