Special Seminar: Dr. Luca Sapienze| Department of Physics & Astronomy, University of Southampton, UK

Wednesday, August 2, 2017
2:00 p.m.
ERF 1207
Taylor Prendergast
301 405 4951
tprender@umd.edu

 

Title: On-chip engineered and disordered nanophotonics

Abstract: Solid-state quantum emitters are required for quantum information protocols relying on the storage, manipulation, and transmission of the information encoded in single photons through optical cavities and waveguides. Semiconductor quantum dots are particularly promising quantum light sources that can allow both the investigation of fundamental physics phenomena on a chip and quantum technology applications [1]

I will present a quantum dot positioning technique that allows to deterministically fabricate nanophotonic devices with optimally located single emitters and tailored to the emission properties of specific single quantum dots. I will show its implementation to realise simultaneously bright and pure, on-demand, single-photon emission by circular grating cavities [2] and metallic ring nanolenses [3]. Then I will describe how such an optical positioning technique can be combined to atomic force microscopy to increase the yield of nanophotonic devices and study the morphology of quantum dots grown by molecular beam epitaxy [4]. 
Finally, I will focus on the comparison between highly engineered structures and disordered photonic crystal waveguides in the Anderson-localised regime, showing efficient light confinement and optical sensing on a silicon nitride platform operating at visible wavelengths, up to room temperature [5].

 

References:

[1] O. Gozzano, G.S. Solomon, Toward optical quantum information processing with quantum dots coupled to microstructures, Journal of the Optical Society of America B 33, C160 (2016)

[2] L. Sapienza, M. Davanco, A. Badolato, K. Srinivasan, Nanoscale optical positioning of single quantum dots for bright and pure single-photon emissionNature Communications 6, 7833 (2015).

[3] O.J. Trojak, S.I. Park , J.D. Song, L. SapienzaMetallic nanorings for broadband, enhanced extraction of light from solid-state emittersApplied Physics Letters 111, 021109 (2017).

[4] L. Sapienza et al., Combined atomic force microscopy and photoluminescence imaging to select single InAs/GaAs quantum dots for quantum photonic devicesScientific Reports 7, 6205 (2017).

[5] T. Crane, O.J. Trojak, L. Sapienza, Anderson localisation of visible light on a nanophotonic chiparxiv.org/abs/1605.08614 (2016).

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