C. Seassal scite author profile

C. Seassal

4Publications

69Citation Statements Received

0Citation Statements Given

How they've been cited

108

How they cite others

Affiliations

École Centrale de Lyon, Claude Bernard University Lyon 1, Institut des Nanotechnologies de Lyon

Publications

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Surface-emitting microlaser combining two-dimensional photonic crystal membrane and vertical Bragg mirror

Bakir¹,

Seassal²,

Letartre³

et al. 2006

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We report on the design and fabrication of heterogeneous and compact surface-emitting microlasers, optically pumped and operating at 1.5μm at room-temperature. A very low threshold, below 15μW, is achieved. The devices consists of a top two-dimensional InP photonic crystal slab, including four InAsP quantum wells, a SiO2 bonding layer, and a bottom high index contrast Si∕SiO2 Bragg mirror deposited on a Si wafer. The graphitelike photonic crystal lattice is tailored for vertical emission. We theoretically and experimentally demonstrate that the Bragg reflector can strongly enhance the quality factor of the photonic crystal resonant mode, leading to a drastic decrease of the lasing threshold.

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Design and investigation of surface addressable photonic crystal cavity confined band edge modes for quantum photonic devices

Nedel¹,

Letartre²,

Seassal³

et al. 2011

Opt. Express

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We propose to use a localized Γ-point slow Bloch mode in a 2D-Photonic Crystal (PC) membrane to realize an efficient surface emitting source. This device can be used as a quantum photonic device, e.g. a single photon source. The physical mechanisms to increase the Q/V factor and to improve the directivity of the PC microcavity rely on a fine tuning of the geometry in the three directions of space. The PC lateral mirrors are first engineered in order to optimize photons confinement. Then, the effect of a Bragg mirror below the 2DPC membrane is investigated in terms of out-of-plane leakages and far field emission pattern. This photonic heterostructure allows for a strong lateral confinement of photons, with a modal volume of a few (λ/n)3 and a Purcell factor up to 80, as calculated by two different numerical methods. We finally discuss the efficiency of the single photon source for different collection set-up.

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Photonic Crystal Enhanced Absorbance of CVD Graphene

Rybin

Garrigues

Pozharov

et al. 2012

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Optical modeling of waveguide photonic nanostructures using the radiation spectrum method (RSM) with evanescent modes

Khalil

Seassal

Tedjini

1999

IEEE J. Select. Topics Quantum Electron.

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C. Seassal

Surface-emitting microlaser combining two-dimensional photonic crystal membrane and vertical Bragg mirror

Design and investigation of surface addressable photonic crystal cavity confined band edge modes for quantum photonic devices

Photonic Crystal Enhanced Absorbance of CVD Graphene

Optical modeling of waveguide photonic nanostructures using the radiation spectrum method (RSM) with evanescent modes

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