Your search keyword '"Engin, Erman"' showing total 4 results

1. Gallium Arsenide (GaAs) Quantum Photonic Waveguide Circuits

Author

Wang, Jianwei, Santamato, Alberto, Jiang, Pisu, Bonneau, Damien, Engin, Erman, Silverstone, Joshua W., Lermer, Matthias, Beetz, Johannes, Kamp, Martin, Hofling, Sven, Tanner, Michael G., Natarajan, Chandra M., Hadfield, Robert H., Dorenbos, Sander N., Zwiller, Val, O'Brien, Jeremy L., and Thompson, Mark G.

Subjects

Quantum Physics, Physics - Optics

Abstract

Integrated quantum photonics is a promising approach for future practical and large-scale quantum information processing technologies, with the prospect of on-chip generation, manipulation and measurement of complex quantum states of light. The gallium arsenide (GaAs) material system is a promising technology platform, and has already successfully demonstrated key components including waveguide integrated single-photon sources and integrated single-photon detectors. However, quantum circuits capable of manipulating quantum states of light have so far not been investigated in this material system. Here, we report GaAs photonic circuits for the manipulation of single-photon and two-photon states. Two-photon quantum interference with a visibility of 94.9 +/- 1.3% was observed in GaAs directional couplers. Classical and quantum interference fringes with visibilities of 98.6 +/- 1.3% and 84.4 +/- 1.5% respectively were demonstrated in Mach-Zehnder interferometers exploiting the electro-optic Pockels effect. This work paves the way for a fully integrated quantum technology platform based on the GaAs material system., Comment: 10 pages, 4 figures

Published

2014

2. Photon Pair Generation in Silicon Micro-Ring Resonator with Reverse Bias Enhancement

Author

Engin, Erman, Bonneau, Damien, Natarajan, Chandra M., Clark, Alex, Tanner, M. G., Hadfield, R. H., Dorenbos, Sanders N., Zwiller, Val, Ohira, Kazuya, Suzuki, Nobuo, Yoshida, Haruhiko, Iizuka, Norio, Ezaki, Mizunori, O'Brien, Jeremy L., and Thompson, Mark G.

Subjects

Physics - Optics, Quantum Physics

Abstract

Photon sources are fundamental components for any quantum photonic technology. The ability to generate high count-rate and low-noise correlated photon pairs via spontaneous parametric down-conversion using bulk crystals has been the cornerstone of modern quantum optics. However, future practical quantum technologies will require a scalable integration approach, and waveguide-based photon sources with high-count rate and low-noise characteristics will be an essential part of chip-based quantum technologies. Here, we demonstrate photon pair generation through spontaneous four-wave mixing in a silicon micro-ring resonator, reporting a maximum coincidence-to-accidental (CAR) ratio of 602 (+-) 37, and a maximum photon pair generation rate of 123 MHz (+-) 11 KHz. To overcome free-carrier related performance degradations we have investigated reverse biased p-i-n structures, demonstrating an improvement in the pair generation rate by a factor of up to 2, with negligible impact on CAR., Comment: 5 pages, 3 figures

Published

2012

3. GaN directional couplers for integrated quantum photonics

Author

Zhang, Yanfeng, McKnight, Loyd, Engin, Erman, Watson, Ian M., Cryan, Martin J., Gu, Erdan, Thompson, Mark G., Calvez, Stephane, O'Brien, Jeremy L., and Dawson, Martin D.

Subjects

Physics - Optics, Condensed Matter - Materials Science, Quantum Physics

Abstract

Large cross-section GaN waveguides are proposed as a suitable architecture to achieve integrated quantum photonic circuits. Directional couplers with this geometry have been designed with aid of the beam propagation method and fabricated using inductively coupled plasma etching. Scanning electron microscopy inspection shows high quality facets for end coupling and a well defined gap between rib pairs in the coupling region. Optical characterization at 800 nm shows single-mode operation and coupling-length-dependent splitting ratios. Two photon interference of degenerate photon pairs has been observed in the directional coupler by measurement of the Hong-Ou-Mandel dip with 96% visibility., Comment: 4 pages, 5 figures

Published

2012

4. Quantum interference and manipulation of entanglement in silicon wire waveguide quantum circuits

Author

Bonneau, Damien, Engin, Erman, Ohira, Kazuya, Suzuki, Nob, Yoshida, Haruhiko, Iizuka, Norio, Ezaki, Mizunori, Natarajan, Chandra M., Tanner, Michael G., Hadfield, Robert H., Dorenbos, Sanders N., Zwiller, Val, O'Brien, Jeremy L., and Thompson, Mark G.

Subjects

Quantum Physics

Abstract

Integrated quantum photonic waveguide circuits are a promising approach to realizing future photonic quantum technologies. Here, we present an integrated photonic quantum technology platform utilising the silicon-on-insulator material system, where quantum interference and the manipulation of quantum states of light are demonstrated in components orders of magnitude smaller than in previous implementations. Two-photon quantum interference is presented in a multi-mode interference coupler, and manipulation of entanglement is demonstrated in a Mach-Zehnder interferometer, opening the way to an all-silicon photonic quantum technology platform., Comment: 7 pages

Published

2012