Joint Quantum Seminar
Wednesday, November 28th, 2018
4:00 PM, Jefferson 250
Prof. Peter Lodahl, Center for Hybrid Quantum Networks (Hy-Q), Niels Bohr Institute
“Quantum-Information Processing with Solid-State Single-Photon Emitters””
Semiconductor quantum dots have improved their optical performance dramatically in recent
years, and today a clear pathway is laid out for constructing a deterministic and coherent
photon-emitter interface by embedding quantum dots in photonic nanostructures [1]. Such an
interface can be employed as an on-demand single-photon source for quantum-information
applications, but more generally enables single-photon nonlinearities and deterministic
quantum gates [2]. We will review the recent experimental progress on quantum dots coupled
to nanophotonic waveguides and cavities as a mean to engineer light-matter interaction. We
discuss current status on efficiency, coherence[3,4] and brightness [5], as well as the
fundamental limits of photon indistinguishability [6,7]. Various potential
quantum-information processing protocols are put forward that exploits the deterministic
photon-emitter interface for single-photon nonlinear optics and spin physics. Finally, the
experimental demonstration of a photonic switched controlled by a single spin coupled to a
waveguide is discussed [8].
References: [1] Lodahl et al., Rev. Mod. Phys. 87, 347 (2015). [2] Lodahl, Quantum Science
and Technology 3, 013001 (2018). [3] Kirsanske et al., Phys. Rev. B 96, 165306 (2017). [4]
Thyrrestrup et al., Nano Letters 18, 1801 (2018) [5] Daveau et al., Optica 4, 178 (2017).
[6] Tighineanu et al., Phys. Rev. Lett. 120, 257401 (2018). [7] Dreessen et al., Quantum
Science and Technology 4, 015003 (2019). [8] Javadi et al., Nature Nanotechnology 13, 398
(2018).
Student Presentation by Tijs Karman will begin at 4:00
Guest Presentation will begin at 4:30 PM
Refreshments will be provided
Samantha Dakoulas
Faculty Assistant to Professors Lukin & Greiner & their groups
Department of Physics
17 Oxford St., Lyman 324A
Cambridge, MA 02138
P. (617) 496-2544
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