Kai Ming Cheng scite author profile

Kai Ming Cheng

2Publications

9Citation Statements Received

37Citation Statements Given

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Chinese University of Hong Kong

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Quantum Geometric Phase between Orthogonal States

2005

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We show that the geometric phase between any two states, including orthogonal states, can be computed and measured using the notion of projective measurement, and we show that a topological number can be extracted in the geometric phase change in an infinitesimal loop near an orthogonal state. Also, the Pancharatnam phase change during the passage through an orthogonal state is shown to be either π or zero (mod 2π). All the off-diagonal geometric phases can be obtained from the projective geometric phase calculated with our generalized connection.

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The quantum mechanical geometric phase of a particle in a resonant vibrating cavity

Yuen¹,

Fung²,

Cheng³

et al. 2003

J. Phys. A: Math. Gen.

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We study the general-setting quantum geometric phase acquired by a particle in a vibrating cavity. Solving the two-level theory with the rotating-wave approximation and the SU(2) method, we obtain analytic formulae that give excellent descriptions of the geometric phase, energy, and wavefunction of the resonating system. In particular, we observe a sudden π-jump in the geometric phase when the system is in resonance. We found similar behaviors in the geometric phase of a spin-1/2 particle in a rotating magnetic field, for which we developed a geometrical model to help visualize its evolution.

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Kai Ming Cheng

Quantum Geometric Phase between Orthogonal States

The quantum mechanical geometric phase of a particle in a resonant vibrating cavity

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