Lachezar S. Simeonov scite author profile

We report on the first observation of stationary light pulses and narrowband light storage inside a hollow-core photonic crystal fiber. Laser-cooled atoms were first loaded into the fiber core providing strong light-matter coupling. Light pulses were then stored in a collective atomic excitation using a single control laser beam. By applying a second counterpropagating control beam, a light pulse could be brought to a standstill. Our work paves the way towards the creation of strongly-correlated many-body systems with photons and applications in the field of quantum information processing.

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Single-photon-level narrowband memory in a hollow-core photonic bandgap fiber

Peters¹,

Wang²,

Neumann³

et al. 2020

Opt. Express

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An experimental platform operating at the level of individual quanta and providing strong light-matter coupling is a key requirement for quantum information processing. In our work, we show that hollow-core photonic bandgap fibers filled with laser-cooled atoms might serve as such a platform, despite their typical complicated birefringence properties. To this end, we present a detailed theoretical and experimental study to identify a fiber with suitable properties to achieve operation at the single-photon level. In the fiber, we demonstrate the storage and on-demand retrieval as well as the creation of stationary light pulses, based on electromagnetically induced transparency, for weak coherent light pulses down to the single-photon level with an unconditional noise floor of 0.017(4) photons per pulse. These results clearly demonstrate the prospects of such a fiber-based platform for applications in quantum information networks.

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Exactly solvable two-state quantum model for a pulse of hyperbolic-tangent shape

Simeonov

Vitanov

2014

Phys. Rev. A

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Dynamical invariants for pseudo-Hermitian Hamiltonians

Simeonov

Vitanov

2016

Phys. Rev. A

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We derive the dynamical invariants for a general N -state quantum system described by a pseudohermitian Hamiltonian. Explicit expressions are presented for two-and three-state systems, which are exemplified by explicit analytic solutions for constant couplings. In the two-state case, we derive non-hermitian analogs of the Bloch vector and the Bloch equation, customary for hermitian quantum systems. We suggest possible physical implementations of the dynamical invariants in waveguide optics and frequency conversion.

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Generation of non-Abelian geometric phases in degenerate atomic transitions

Simeonov

Vitanov

2017

Phys. Rev. A

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