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研究员
- 电子邮箱:c29a56504747d50807f9cf864ae35861d3912148013ac77a392341696b257787ae328780fe7fb9e31cabc7aa2be82b6572d5edb4df62960e2be58d5d27d15a92a5328618b853a1c4786ca1112d113afb9eb3bc8c53ace6cd766ad5210e5bc48a50e3abbbde41f2b0f18fec5c2db9b708f12fb19b27cc528ef3e51b4b694e23c9
- 学位:博士
访问量:
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[ 1 ][2] Huang YF, Liu BH, Peng L, Li YH, Li L, Li CF, Guo GC, Experimental generation of an eight-photon Greenberger–Horne–Zeilinger state, Nature Communications, 2: 546 (2011)..2021,
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[ 2 ][3] Huang YF, Peng L, Li L, Liu BH, Li CF, Guo GC, Experimental demonstration of decoherence-induced spontaneous symmetry breaking, Phys. Rev. A 83, 052105 (2011)..2021,
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[ 3 ][4] Liu BH, Li L, Huang YF, Li CF, Guo GC, Laine EM, Breuer HP, Piilo J, Experimental control of the transition from Markovian to non-Markovian dynamics of open quantum systems, Nature Phys, 7, 931(2011)..2021,
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[ 4 ][1] Huang YF, Li M, Cao DY, Zhang C, Zhang YS, Liu BH, Li CF, Guo GC, Experimental test of state-independent quantum contextuality of an indivisible quantum system, PHYSICAL REVIEW A, 87, 052133 (2013)..2021,
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[ 5 ][5] Huang YF, Niu XL, Gong YX, Li j, Peng L, Zhang CJ, Zhang YS, Guo GC, Experimental measurement of lower and upper bounds of concurrence for mixed quantum states, Phys. Rev. A 79, 052338 (2009)..2021,
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[ 6 ]黄运锋.Experimental implementation of generalized transitionless quantum
driving.OPTICS LETTERS,2018,43(13):3136-3139.
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[ 1 ]崔金明 ,胡志浩,黄运锋,李传锋,基于椭球腔面的光纤微腔;激光器及光纤制备方法,201910957066.2,
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[ 2 ]崔金明 ,高新霞,黄运锋,李传锋,快速宽调谐的光纤微腔激光器,201910870346.X,2019/12/13,
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[ 3 ]崔金明 ,张昊清,黄运锋,李传锋,偏振分束器及其制备方法、偏振分束方法,201910658560.9,2019/11/15,
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[ 4 ]崔金明 ,周坤,黄运锋,李传锋,包含表面形貌原位检测的激光加工装置,201910628551.5,
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[ 5 ]周坤 ,崔金明,黄运锋,李传峰,光纤法珀气泡腔传感器,201821427541.2,2019/05/14,2019/05/14.
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[ 6 ]周坤 ,崔金明,黄运锋,李传峰,基于光纤法布里玻罗腔的应变传感器,201821226834.4,2019/02/26,2019/02/26.
