Masahiro Nomura scite author profile

We experimentally implement a system of cavity optomagnonics, where a sphere of ferromagnetic material supports whispering gallery modes (WGMs) for photons and the magnetostatic mode for magnons. We observe pronounced nonreciprocity and asymmetry in the sideband signals generated by the magnon-induced Brillouin scattering of light. The spin-orbit coupled nature of the WGM photons, their geometrical birefringence, and the time-reversal symmetry breaking in the magnon dynamics impose the angular-momentum selection rules in the scattering process and account for the observed phenomena. The unique features of the system may find interesting applications at the crossroad between quantum optics and spintronics.

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Laser oscillation in a strongly coupled single-quantum-dot–nanocavity system

Nomura

et al. 2010

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Strong coupling of photons and materials 1 in semiconductor nanocavity systems has been investigated because of its potentials in quantum information processing 2 and related applications, and has been testbeds for cavity quantum electrodynamics (QED) 3,4 . Interesting phenomena such as coherent exchange of a single quantum between a single quantum dot and an optical cavity, called vacuum Rabi oscillation 5-9 , and highly efficient cavity QED lasers 10-18 have been reported thus far.The coexistence of vacuum Rabi oscillation and laser oscillation appears to be contradictory in nature, because the fragile reversible process may not survive in laser oscillation. However, recently, it has been theoretically predicted that the strong-coupling effect could be sustained in laser oscillation in properly designed semiconductor systems 19 . Nevertheless, the experimental realization of this phenomenon has remained difficult since the first demonstration of the strong-coupling 5, 6 , because an extremely high cavity quality factor and strong light-matter coupling are both required for this purpose. Here, we demonstrate the onset of laser oscillation in the strong-coupling regime in a single quantum dot (SQD)-cavity system. A high-quality semiconductor optical nanocavity and strong SQD-field coupling enabled to the onset of lasing while maintaining the fragile coherent exchange of quanta between the SQD and the cavity. In addition to the interesting physical features, this device is seen as a prototype of an ultimate solid state light source with an SQD gain, which operates at ultra-low power, with expected applications in future nanophotonic integrated systems and monolithic quantum information devices.

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Lasing oscillation in a three-dimensional photonic crystal nanocavity with a complete bandgap

et al. 2010

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Coupling of quantum-dot light emission with a three-dimensional photonic-crystal nanocavity

et al. 2008

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Circularly Polarized Light Emission from Semiconductor Planar Chiral Nanostructures

et al. 2011

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We demonstrate circularly polarized light emission from InAs quantum dots embedded in the waveguide region of a GaAs-based chiral nanostructure. The observed phenomenon originates due to a strong imbalance between left- and right-circularly polarized components of the vacuum field and results in a degree of polarization as high as 26% at room temperature. A strong circular anisotropy of the vacuum field modes inside the chiral nanostructure is visualized using numerical simulation. The results of the simulation agree well with experimental results.

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Masahiro Nomura

Cavity Optomagnonics with Spin-Orbit Coupled Photons

Laser oscillation in a strongly coupled single-quantum-dot–nanocavity system

Lasing oscillation in a three-dimensional photonic crystal nanocavity with a complete bandgap

Coupling of quantum-dot light emission with a three-dimensional photonic-crystal nanocavity

Circularly Polarized Light Emission from Semiconductor Planar Chiral Nanostructures

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