H. Rehberg scite author profile

We report on the realization of optical microtube resonators with a bottlelike geometry. The measured eigenenergies and the measured axial field distributions of the modes can be described by a straight and intuitive model using an adiabatic separation of the circulating and the axial propagation. The dispersion of the axial mode energies follows a photonic quasi-Schrödinger equation including a quasipotential which can be determined for the actual geometry of the microtube in a precise and simple way. We show that tailoring the geometry of the microtube bottle resonators enables the realization of a wide variety of mode distributions and dispersion relations.

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Light confinement and mode splitting in rolled-up semiconductor microtube bottle resonators

Strelow

Schultz

Rehberg

et al. 2012

Phys. Rev. B

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Three dimensionally confined optical modes in quantum-well microtube ring resonators

et al. 2007

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We report on microtube ring resonators with quantum wells embedded as an optically active material. Optical modes are observed over a broad energy range. Their properties strongly depend on the exact geometry of the microtube along its axis. In particular, we observe ͑i͒ preferential emission of light on the inside edge of the microtube and ͑ii͒ confinement of light also in the direction of the tube axis by an axially varying geometry, which is explained in an expanded waveguide model.

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Spatial emission characteristics of a semiconductor microtube ring resonator

Strelow¹,

Rehberg²,

Schultz³

et al. 2008

Physica E: Low-dimensional Systems and Nanostructures

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H. Rehberg

Optical Microcavities Formed by Semiconductor Microtubes Using a Bottlelike Geometry

Light confinement and mode splitting in rolled-up semiconductor microtube bottle resonators

Three dimensionally confined optical modes in quantum-well microtube ring resonators

Spatial emission characteristics of a semiconductor microtube ring resonator

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