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Engineering spin-orbit synthetic Hamiltonians in liquid-crystal optical cavities
Engineering spin-orbit synthetic Hamiltonians in liquid-crystal optical cavities
by Mazur, Rafał , Piętka, Barbara , Łempicka, Karolina , Mirek, Rafał , Rechcińska, Katarzyna , Bardyszewski, Witold , Morawiak, Przemysław , Król, Mateusz , Szczytko, Jacek , Kula, Przemysław , Piecek, Wiktor , Lagoudakis, Pavlos G. , Matuszewski, Michał
in Cavities / Condensed matter physics / Control systems / Electromagnetic radiation / Electron spin / Electron transport / Emulators / Engineering / Flexibility / Holes / Liquid crystals / Orbital resonances (celestial mechanics) / Photonic crystals / Photons / Quantum mechanics / Quantum phenomena / Solid state / Spin-orbit interactions / Stability / Wave propagation
2019
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Engineering spin-orbit synthetic Hamiltonians in liquid-crystal optical cavities
by Mazur, Rafał , Piętka, Barbara , Łempicka, Karolina , Mirek, Rafał , Rechcińska, Katarzyna , Bardyszewski, Witold , Morawiak, Przemysław , Król, Mateusz , Szczytko, Jacek , Kula, Przemysław , Piecek, Wiktor , Lagoudakis, Pavlos G. , Matuszewski, Michał
in Cavities / Condensed matter physics / Control systems / Electromagnetic radiation / Electron spin / Electron transport / Emulators / Engineering / Flexibility / Holes / Liquid crystals / Orbital resonances (celestial mechanics) / Photonic crystals / Photons / Quantum mechanics / Quantum phenomena / Solid state / Spin-orbit interactions / Stability / Wave propagation
2019
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Engineering spin-orbit synthetic Hamiltonians in liquid-crystal optical cavities
Engineering spin-orbit synthetic Hamiltonians in liquid-crystal optical cavities
by Mazur, Rafał , Piętka, Barbara , Łempicka, Karolina , Mirek, Rafał , Rechcińska, Katarzyna , Bardyszewski, Witold , Morawiak, Przemysław , Król, Mateusz , Szczytko, Jacek , Kula, Przemysław , Piecek, Wiktor , Lagoudakis, Pavlos G. , Matuszewski, Michał
in Cavities / Condensed matter physics / Control systems / Electromagnetic radiation / Electron spin / Electron transport / Emulators / Engineering / Flexibility / Holes / Liquid crystals / Orbital resonances (celestial mechanics) / Photonic crystals / Photons / Quantum mechanics / Quantum phenomena / Solid state / Spin-orbit interactions / Stability / Wave propagation
2019

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Engineering spin-orbit synthetic Hamiltonians in liquid-crystal optical cavities
Engineering spin-orbit synthetic Hamiltonians in liquid-crystal optical cavities
Journal Article

Engineering spin-orbit synthetic Hamiltonians in liquid-crystal optical cavities

Mazur, Rafał,
Piętka, Barbara,
Łempicka, Karolina,
Mirek, Rafał,
Rechcińska, Katarzyna,
Bardyszewski, Witold,
Morawiak, Przemysław,
Król, Mateusz,
Szczytko, Jacek,
Kula, Przemysław,
Piecek, Wiktor,
Lagoudakis, Pavlos G.,
Matuszewski, Michał
2019
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Overview
Spin-orbit interactions lead to distinctive functionalities in photonic systems. They exploit the analogy between the quantum mechanical description of a complex electronic spin-orbit system and synthetic Hamiltonians derived for the propagation of electromagnetic waves in dedicated spatial structures. We realize an artificial Rashba-Dresselhaus spin-orbit interaction in a liquid crystal–filled optical cavity. Three-dimensional tomography in energy-momentum space enabled us to directly evidence the spin-split photon mode in the presence of an artificial spin-orbit coupling. The effect is observed when two orthogonal linear polarized modes of opposite parity are brought near resonance. Engineering of spin-orbit synthetic Hamiltonians in optical cavities opens the door to photonic emulators of quantum Hamiltonians with internal degrees of freedom.
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Publisher
American Association for the Advancement of Science,The American Association for the Advancement of Science
Subject

Cavities

/ Condensed matter physics

/ Control systems

/ Electromagnetic radiation

/ Electron spin

/ Electron transport

/ Emulators

/ Engineering

/ Flexibility

/ Holes

/ Liquid crystals

/ Orbital resonances (celestial mechanics)

/ Photonic crystals

/ Photons

/ Quantum mechanics

/ Quantum phenomena

/ Solid state

/ Spin-orbit interactions

/ Stability

/ Wave propagation

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