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SUMMARY:Integrated quantum photonics developed with and for quantum hardwa
 re
DTSTART:20260518T140000
DTEND:20260518T150000
DTSTAMP:20260412T134624Z
UID:813200f32d861f7503683e9c7629389ef92ac7b359020eaf8450d894
CATEGORIES:Conferences - Seminars
DESCRIPTION:Prof. Marina Radulaski\, Associate Professor of Electrical an
 d Computer Engineering\, University of California\, Davis\nThe emitter-ca
 vity interaction in solid state systems is governed by physics that can bo
 th make an impact on as well as benefit from the development of quantum ha
 rdware. In one direction\, systems with color center integrated in photoni
 c devices promise to build out quantum repeaters and analog quantum simula
 tors of condensed matter and particle physics phenomena. To meet the scala
 bility aspect for practical applications\, we develop the first wafer-scal
 e fabrication process in quantum-grade silicon carbide [1-3]. Reversely\, 
 to properly engineer envisioned photonic systems we pursue to deepen our u
 nderstanding of open quantum system cavity QED in innovative ways using th
 e emerging quantum computing hardware. To this goal\, we develop analog an
 d digital simulation of the open Tavis-Cummings model and test it on the D
 OE quantum testbeds [4-6]\, exploring this niche application for the near-
 term computational advantage.\n \n\n	S. Majety\, V. A. Norman\, P. Saha\,
  A. H. Rubin\, S. Dhuey\, M. Radulaski\, "Wafer-Scale Integration of Frees
 tanding Photonic Devices with Color Centers in Silicon Carbide\," npj Nan
 ophotonics 2\, 3 (2025).\n	V. A. Norman\, S. Majety\, A. H. Rubin\, P. Sa
 ha\, N. R. Gonzalez\, J. Simo\, B. Palomarez\, L. Li\, P. B. Curro\, S. Dh
 uey\, S. Virashawmy\, M. Radulaski\, "Sub-2 Kelvin characterization of nit
 rogen-vacancy centers in silicon carbide nanopillars\," special issue 'Ri
 sing Stars in Photonics\,' ACS Photonics 12\, 5\, 2604–2611 (2025).\n
 	P. Saha\, A. H. Rubin\, S. Majety\, S. Dhuey\, M. Radulaski\, "Triangular
  cross-section grating couplers for integrated quantum nanophotonic hardwa
 re in silicon carbide\," special collection 'Emerging Leaders in Materia
 ls Science'\, APL Materials 13\, 071102 (2025).\n	B. Marinelli\, A. H. R
 ubin\, V. A. Norman\, S. Yang\, R. Naik\, B. M. Niedzielski\, D. K. Kim\, 
 R. Das\, M. Schwartz\, D. I. Santiago\, C. Spitzer\, I. Siddiqi\, M. Radul
 aski\, "Photon Blockade in a Tavis-Cummings System\," Physical Review App
 lied 24\, 044103 (2025).\n	A. N. Sims\, D. Patel\, A. Philip\, A. H. Rubi
 n\, R. Bandyopadhyay\, M. Radulaski\, M. M. Wilde\, "Digital Quantum Simul
 ations of the Non-Resonant Open Tavis-Cummings Model\," Physical Review R
 esearch 7\, 043302 (2025).\n	A. H. Rubin. B. Marinelli\, V. A. Norman\, 
 Z. Rizvi\, A. D. Burch\, R. K. Naik\, J. M. Kreikebaum\, M. N. H. Chow\, D
 . S. Lobser\, M. C. Revelle\, C. G. Yale\, M. Ivory\, D. I. Santiago\, C. 
 Spitzer\, M. Krstic-Marinkovic\, S. M. Clark\,  I. Siddiqi\, M. Radulaski
 \, "Digital Quantum Simulation of Cavity Quantum Electrodynamics: Insights
  from Superconducting and Trapped Ion Quantum Testbeds\," Quantum Science
  and Technology 10\, 4 (2025).\n\n\n\n	Bio   Marina Radulaski is an Ass
 ociate Professor of Electrical and Computer Engineering\, and by courtesy 
 of Physics\, at the University of California\, Davis\, where she leads the
  Quantum Nanophotonics Laboratory. Radulaski also holds an Affiliate Facul
 ty position at the Lawrence Berkeley National Laboratory. She obtained a P
 hD in applied physics and postdoctoral training in electrical engineering 
 at Stanford University and holds undergraduate degrees in theoretical phys
 ics and computer science from the University of Belgrade and the Union Uni
 versity in Serbia\, respectively. Prof. Radulaski is a recipient of the 20
 23 AFOSR Young Investigator Program Award\, 2022 Google Research Scholar A
 ward\, 2021 NSF CAREER Award and 2023 UC Davis Outstanding Junior Faculty 
 Award. She was selected for the cohorts of the 2026 ETH Quantum Center Fac
 ulty Fellows\, 2025 Materials Today Rising Stars in Quantum Materials and 
 Electronics\, 2025 UC Davis Chancellor’s Fellows\, 2021 ETH Pauli Center
  for Theoretical Study Visiting Researcher program\, 2017 Rising Stars in 
 EECS\, 2017 Stanford Nano- and Quantum Science and Engineering Postdoctora
 l Fellows\, 2012 Stanford Graduate Fellows\, and 2012 Scientific American 
 30-Under-30 Up and Coming Physicists. Radulaski is an Optica senior member
  and a member of the APS DQI executive committee.\n
LOCATION:SV 1717 https://plan.epfl.ch/?room==SV%201717
STATUS:CONFIRMED
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