Radiation Phase Quantization and Its Application to the Transport Through a Quantum Dot Turnstile
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Abstract
Following Schommers’ viewpoint on time, we give radiation time a reasonable definition. We realize the radiation phase quantization by supposing that a radiation-matter interaction process is an eigen state of radiation time operator. The successful application to the transport through a quantum dot turnstile in a radiation field leads to quantized current formula.
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LIU Chengyi, CHEN Qingming, LI Zaiguang. Radiation Phase Quantization and Its Application to the Transport Through a Quantum Dot Turnstile[J]. Chin. Phys. Lett., 1993, 10(7): 393-396.
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LIU Chengyi, CHEN Qingming, LI Zaiguang. Radiation Phase Quantization and Its Application to the Transport Through a Quantum Dot Turnstile[J]. Chin. Phys. Lett., 1993, 10(7): 393-396.
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LIU Chengyi, CHEN Qingming, LI Zaiguang. Radiation Phase Quantization and Its Application to the Transport Through a Quantum Dot Turnstile[J]. Chin. Phys. Lett., 1993, 10(7): 393-396.
|
LIU Chengyi, CHEN Qingming, LI Zaiguang. Radiation Phase Quantization and Its Application to the Transport Through a Quantum Dot Turnstile[J]. Chin. Phys. Lett., 1993, 10(7): 393-396.
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