Byoung S. Ham scite author profile

We report ultraslow group velocities of light in an optically dense crystal of Pr doped Y2SiO5. Light speeds as slow as 45 m/s were observed, corresponding to a group delay of 66 micros. Deceleration and "stopping" or trapping of the light pulse was also observed. These reductions of the group velocity are accomplished by using a sharp spectral feature in absorption and dispersion that is produced by resonance Raman excitation of a ground-state spin coherence.

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Generation of entangled coherent states via cross-phase-modulation in a double electromagnetically induced transparency regime

Paternostro

Kim

Ham³

2003

Phys. Rev. A

177

122

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The generation of an entangled coherent state is one of the most important ingredients of quantum information processing using coherent states. Recently, numerous schemes to achieve this task have been proposed. In order to generate travelling-wave entangled coherent states, cross phase modulation, optimized by optical Kerr effect enhancement in a dense medium in an electromagnetically induced transparency (EIT) regime, seems to be very promising. In this scenario, we propose a fully quantized model of a double-EIT scheme recently proposed [D. Petrosyan and G. Kurizki, Phys. Rev. A 65, 33833 (2002)]: the quantization step is performed adopting a fully Hamiltonian approach. This allows us to write effective equations of motion for two interacting quantum fields of light that show how the dynamics of one field depends on the photon-number operator of the other. The preparation of a Schrödinger cat state, which is a superposition of two distinct coherent states, is briefly exposed. This is based on non-linear interaction via double-EIT of two light fields (initially prepared in coherent states) and on a detection step performed using a 50 : 50 beam splitter and two photodetectors. In order to show the entanglement of an entangled coherent state, we suggest to measure the joint quadrature variance of the field. We show that the entangled coherent states satisfy the sufficient condition for entanglement based on quadrature variance measurement. We also show how robust our scheme is against a low detection efficiency of homodyne detectors.

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The origin of anticorrelation for photon bunching on a beam splitter

Ham

2020

Sci Rep

110

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The Copenhagen interpretation, in which the core concepts are Heisenberg’s uncertainty principle and nonlocal EPR correlation, has been long discussed. Second-order anticorrelation in a beam splitter represents the origin of these phenomena and cannot be achieved classically. Here, the anticorrelation of nonclassicality in a beam splitter is interpreted using the concept of coherence. Unlike the common understanding of photons having a particle nature, anticorrelation is rooted in the wave nature of coherence optics, described by coherence optics, wherein quantum superposition between two input fields plays a key role. This interpretation may pose fundamental questions about the nature of nonclassicality and pave a road to coherence-based quantum information.

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Efficient electromagnetically induced transparency in a rare-earth doped crystal

Ham¹,

Hemmer²,

Shahriar³

1997

Optics Communications

246

107

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Quantum memory photon echo-like techniques in solids

Моисеев

Tarasov

Ham

2003

J. Opt. B: Quantum Semiclass. Opt.

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Byoung S. Ham

Observation of Ultraslow and Stored Light Pulses in a Solid

Generation of entangled coherent states via cross-phase-modulation in a double electromagnetically induced transparency regime

The origin of anticorrelation for photon bunching on a beam splitter

Efficient electromagnetically induced transparency in a rare-earth doped crystal

Quantum memory photon echo-like techniques in solids

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