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14 September 2020 – 17 September 2020 OSA Virtual Event - Eastern Daylight Time (UTC - 04:00)

Photonics II (QM5B)

Presider: Virginia Lorenz, Univ of Illinois at Urbana-Champaign

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15:45 - 16:00
(UTC - 04:00)

(Withdrawn) An Integrated Photonic Platform for Rare-Earth Ions in Thin Film Lithium Niobate (QM5B.1)
Presenter: Subhojit Dutta, University of Maryland, College Park

We demonstrate an integrated photonic platform for rare earth ions in thin film lithium niobate with bulk like optical properties.

Authors:Subhojit Dutta, University of Maryland, College Park / Elizabeth Goldschmidt, University of Illinois / Sabyasachi Barik, University of Maryland, College Park / Uday Saha, University of Maryland, College Park / Edo Waks, University of Maryland, College Park

16:00 - 16:15
(UTC - 04:00)

Engineered Quantum Light Sources from 2D Monolayers on a Micro-actuator (QM5B.2)
Presenter: Jehyung Kim, UNIST

We demonstrate position and frequency control of quantum emitters from integrated WSe2 monolayers on a strain tunable Si actuator. The engineered quantum emitters will provide important hardware for scalable and integrated quantum photonic system.

Authors:Hyoju Kim, UNIST / Jong Sung Moon, UNIST / Gichang Noh, Ajou University / Jieun Lee, Ajou University / Jehyung Kim, UNIST

  Paper

16:15 - 16:30
(UTC - 04:00)

(Withdrawn) Versatile Resonant Electro-Optic Device: from Frequency Combs to Quantum State Transfer (QM5B.3)
Presenter: Alfredo Rueda Sanchez, Institute of Science and Technology

We present the current state of the art of a versatile electro-optic device based on a WGM resonator with applications in long distance telecommunication and in quantum information technology.

Authors:Alfredo Rueda Sanchez, Institute of Science and Technology / Florian Sedlmeir, Max Planck Institute Erlangen / William Hease, Institute of Science and Technology / Shabir Barzanjeh, Institute of Science and Technology / Matthias Wulf, Institute of Science and Technology / Madhuri Kumari, The Dodd-Walls Centre for Photonic and Quantum Technologies / Harald Schwefel, The Dodd-Walls Centre for Photonic and Quantum Technologies / Johannes Fink, Institute of Science and Technology

16:30 - 16:45
(UTC - 04:00)

Deterministic generation of a cluster-state of indistinguishable entangled photons. (QM5B.4)
Presenter: Dan Cogan, Technion

We use periodic excitation of a semiconductor quantum-dot spin to demonstrate gigahertz rate deterministic generation of long strings of entangled indistinguishable photons in a cluster state. The entanglement lasts for 11 consecutive photons.

Authors:Dan Cogan, Technion / Zu-En Su, Technion / Oded Kenneth, Technion / David Gershoni, Technion

  Paper