Reza Hekmati scite author profile

A device that is able to produce single photons is a fundamental building block for a number of quantum technologies. Significant progress has been made in engineering quantum emission in the solid state, for instance, using semiconductor quantum dots as well as defect sites in bulk and two-dimensional materials. Here we report the discovery of a room-temperature quantum emitter embedded deep within the band gap of aluminum nitride. Using spectral, polarization, and photon-counting time-resolved measurements we demonstrate bright (>10 5 counts s –1 ), pure ( g (2) (0) < 0.2), and polarized room-temperature quantum light emission from color centers in this commercially important semiconductor.

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Coherence protection of spin qubits in hexagonal boron nitride

Ramsay

Hekmati

Patrickson

et al. 2023

Nat Commun

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Spin defects in foils of hexagonal boron nitride are an attractive platform for magnetic field imaging, since the probe can be placed in close proximity to the target. However, as a III-V material the electron spin coherence is limited by the nuclear spin environment, with spin echo coherence times of ∽100 ns at room temperature accessible magnetic fields. We use a strong continuous microwave drive with a modulation in order to stabilize a Rabi oscillation, extending the coherence time up to ∽ 4μs, which is close to the 10 μs electron spin lifetime in our sample. We then define a protected qubit basis, and show full control of the protected qubit. The coherence times of a superposition of the protected qubit can be as high as 0.8 μs. This work establishes that boron vacancies in hexagonal boron nitride can have electron spin coherence times that are competitive with typical nitrogen vacancy centres in small nanodiamonds under ambient conditions.

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Enhanced light collection from a gallium nitride color center using a near index-matched solid immersion lens

Bishop

Hadden

Hekmati

et al. 2022

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Among wide-bandgap compound semiconductors, gallium nitride is the most widely available material due to its prevalence in the solid state lighting and high-speed/high-power electronics industries. It is now known that GaN is one of only a handful of materials to host color centers that emit quantum light at room temperature. In this paper, we report on a bright color center in a semi-polar gallium nitride substrate emitting at room temperature in the near-infrared. We show that a hemispherical solid immersion lens, near index matched to the semiconductor, can be used to enhance the photon collection efficiency by a factor of 4.3 ± 0.1 while improving the lateral resolution by a factor equal to the refractive index of the lens.

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Novel modification of infrahyoid myocutaneous flap for the reconstruction of oral cavity defects

Jafari

Hekmati

Karimi

et al. 2022

British Journal of Oral and Maxillofacial Surgery

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Reconfigurable Optical Heptamer Disk Absorber Based on an Optical Switch

Zarrabi

Bazgir

Hekmati

2019

IEEE Photon. Technol. Lett.

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Reza Hekmati

Room-Temperature Quantum Emitter in Aluminum Nitride

Coherence protection of spin qubits in hexagonal boron nitride

Enhanced light collection from a gallium nitride color center using a near index-matched solid immersion lens

Novel modification of infrahyoid myocutaneous flap for the reconstruction of oral cavity defects

Reconfigurable Optical Heptamer Disk Absorber Based on an Optical Switch

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