Andreas Bülter scite author profile

A user‐friendly, fiber‐coupled, single‐photon source operating at telecom wavelengths is a key component of photonic quantum networks providing long‐haul, ultra‐secure data exchange. To take full advantage of quantum‐mechanical data protection and to maximize the transmission rate and distance, a true quantum source providing single photons on demand is highly desirable. This great challenge is tackled by developing a ready‐to‐use semiconductor quantum‐dot‐based device that launches single photons at a wavelength of 1.3 µm directly into a single‐mode optical fiber. In the proposed approach, the quantum dot is deterministically integrated into a nanophotonic structure to ensure efficient on‐chip coupling into a fiber. The whole arrangement is integrated into a 19ʺ compatible housing to enable stand‐alone operation by cooling via a compact Stirling cryocooler. The realized source delivers single photons with a multiphoton events probability as low as 0.15 and a single‐photon emission rate of up to 73 kHz into a standard telecom single‐mode fiber.

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ps-LIF measurements of minor species concentration in a counterflow diffusion flame interacting with a vortex

Brockhinke

Bülter

Rolon

et al. 2001

Appl Phys B

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Study of energy transfer processes in CH as prerequisite for quantitative minor species concentration measurements

et al. 2004

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τ-SPAD: a new red sensitive single-photon counting module

Kell

Bülter

Wahl

et al. 2011

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Energy transfer in the OH A²Σ⁺state: The role of polarization and of multi-quantum energy transfer

Brockhinke

Lenhard

Bülter

et al. 2005

Phys. Chem. Chem. Phys.

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Energy transfer in the excited state of molecules including quenching, rotational and vibrational energy transfer, and polarization scrambling is one of the major factors which limit the accuracy of laser-induced fluorescence (LIF) measurements. In this contribution, we present time-, wavelength-, and polarization-resolved spectra of OH in a stoichiometric H2/air flame at atmospheric pressure. Emphasis is placed on the investigation of the role of polarization effects and of multi-quantum vibrational energy transfer on fluorescence spectra originating from the OH A2sigma+ state. Results are compared to simulations using a rate-equation model (LASKIN) developed in our group.

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Andreas Bülter

Plug&Play Fiber‐Coupled 73 kHz Single‐Photon Source Operating in the Telecom O‐Band

ps-LIF measurements of minor species concentration in a counterflow diffusion flame interacting with a vortex

Study of energy transfer processes in CH as prerequisite for quantitative minor species concentration measurements

τ-SPAD: a new red sensitive single-photon counting module

Energy transfer in the OH A²Σ⁺state: The role of polarization and of multi-quantum energy transfer

Contact Info

Product

Resources

About

Andreas Bülter

Plug&Play Fiber‐Coupled 73 kHz Single‐Photon Source Operating in the Telecom O‐Band

ps-LIF measurements of minor species concentration in a counterflow diffusion flame interacting with a vortex

Study of energy transfer processes in CH as prerequisite for quantitative minor species concentration measurements

τ-SPAD: a new red sensitive single-photon counting module

Energy transfer in the OH A2Σ+state: The role of polarization and of multi-quantum energy transfer

Contact Info

Product

Resources

About

Energy transfer in the OH A²Σ⁺state: The role of polarization and of multi-quantum energy transfer