Radulaski Lab
Welcome to R-Lab!

Publications

Journal Publications

We care to disseminate our findings to the broadest of audiences, which is why all R-Lab's preprints are available on arXiv.org free of charge. 

Under review

  1. V. A. Norman, S. Majety, A. H. Rubin, P. Saha, J. Simo, B. Palomarez, L. Li, P. B. Curro, S. Dhuey, S. Virashawmy, M. Radulaski, "ICECAP: a 3-in-1 integrated cryogenic system for emission, collection and photon-detection from near infrared quantum nanophotonic devices," arXiv:2401.10509.

  2. S. Majety, P. Saha, Z. Kekula, S. Dhuey, M. Radulaski, "Triangular Cross-Section Beam Splitters in Silicon Carbide for Quantum Information Processing," arXiv:2311.07845.

  3. J. Y. Patton, V. A. Norman, E. C. Mann, B. Puri, R. T. Scalettar, M. Radulaski, "Polariton Creation in Coupled Cavity Arrays with Spectrally Disordered Emitters" arXiv:2112.15469.

2023

  1. M. K. Marinkovic, M. Radulaski, "Singly-excited resonant open quantum system Tavis-Cummings model with quantum circuit mapping," Scientific Reports 13, 19435 (2023)arXiv:2208.12029.
  2. R. Bandyopadhyay, A. H. Rubin, M. Radulaski, M. Wilde, "Efficient quantum algorithms for testing symmetries of open quantum systems," Open Systems & Information Dynamics 30, 03, 2350017 (2023)arXiv:2309.02515.
  3. S. Majety, M. Radulaski, "Writing above the bandgap," Nature Materials 22, 675-676 (2023).
  4. P. Saha, S. Majety, M. Radulaski, "Utilizing photonic band gap in triangular silicon carbide structures for efficient quantum nanophotonic hardware," Scientific Reports 13, 4112 (2023)arXiv:2208.02996.
  5. [invited article] S. Majety, S. Strohauer, P. Saha, F. Wietschorke, J. J. Finley, K. Müller, M. Radulaski, "Triangular Quantum Photonic Devices with Integrated Detectors in Silicon Carbide," Materials for Quantum Technology 3, 1 (2023)arXiv:2208.05569.
  6. M. Radulaski, V. A. Norman, "Spin-Interaction Studies Take on a New Dimension," Physics 16, 1 (2023).

2022

  1. V. A. Norman, M. Radulaski, "Quantum underpinnings of an all-photonic switch," Nature Physics 18, 1139–1140 (2022).
  2. S. Castelletto, A. Peruzzo, C. Bonato, B. Johnson, M. Radulaski, H. Ou, F. Kaiser, J. Wrachtrup, "Silicon Carbide Photonics Bridging Quantum Technology," ACS Photonics 9, 5, 1434-1457 (2022).

  3. E. Baum, A. Broman, T. Clarke, N. C. Costa, J. Mucciaccio, A. Yue, Y. Zhang, V. Norman, J. Patton, M. Radulaski, R. T. Scalettar, "Effect of Emitters on Quantum State Transfer in Coupled Cavity Arrays," Physical Review B 105, 195429 (2022)arXiv:2112.05740.

  4. [invited perspective] S. Majety, P. Saha, V. A. Norman, M. Radulaski, "Quantum Information Processing With Integrated Silicon Carbide Photonics," Special Topic Collection on Defects in Semiconductors, Journal of Applied Physics 131, 130901 (2022)arXiv:2111.00136.
    >> Media coverage: AIP JAP featured article.

  5. C. Babin, R. Stoehr, N. Morioka, T. Linkewitz, T. Steidl, R. Woernle, D. Liu, E. Hesselmeier, V. Vorobyov, A. Denisenko, M. Hentschel, C. Gobert, P. Berwian, G. Astakhov, W. Knolle, S. Majety, P. Saha, M. Radulaski, N. T. Son, J. Ul-Hassan, F. Kaiser, J. Wrachtrup, "Fabrication and nanophotonic waveguide integration of silicon carbide colour centres with preserved spin-optical coherence," Nature Materials 21, 67–73 (2022), arXiv.2109.04737.
    >> Media coverage: UC Davis Egghead, UC Davis College of EngineeringUC Davis ECEUniversity of Stuttgart, Phys.org, Science Daily, EurekAlertInnovations Report, Eurasia Review, idw, Pro-PhysikWwwhat's New.

  6. [invited topical review] G. Moody, V. J. Sorger, P. W. Juodawlkis, W. Loh, C. Sorace-Agaskar, M. Davanco, L. Chang, J. E. Bowers, N. Quack, C. Galland, I. Aharonovich, M. A. Wolff, C. Schuck, N. Sinclair, M. Lončar, T. Komljenovic, D. Weld, S. Mookherjea, S. Buckley, M. Radulaski, S. Reitzenstein, B. Pingault, B. Machielse, D. Mukhopadhyay, A. Akimov, A. Zheltikov, G. S. Agarwal, K. Srinivasan, J. Lu, H. X. Tang, W. Jiang, T. P. McKenna, A. H. Safavi-Naeini, S. Steinhauer, A. W. Elshaari, V. Zwiller, P. S. Davids, N. Martinez, M. Gehl, J. Chiaverini, K. K. Mehta, J. Romero, N. B. Lingaraju, A. M. Weiner, D. Peace, R. Cernansky, M. Lobino, E. Diamanti, L. T. Vidarte, R. M. Camacho, "Roadmap on Integrated Quantum Photonics," Journal of Physics:Photonics 4, 012501 (2022)arXiv.2102.03323.

2021

  1. [invited article] S. Majety, V. A. Norman, L. Li, M. Bell, P. Saha, M. Radulaski, "Quantum photonics in triangular-cross-section nanodevices in silicon carbide," Journal of Physics: Photonics 3, 034008 (2021), arXiv.2012.02350.

2020

  1. [invited review] V. A. Norman, S. Majety, Z. Wang, W. H. Casey, N. Curro, M. Radulaski, “Novel Color Center Platforms Enabling Fundamental Scientific Discovery,” InfoMat, 1- 24 (2020), arXiv.2003.11135.
  2. D. M. Lukin, C. Dory, M. A. Guidry, K. Y. Yang, S. D. Mishra, R. Trivedi, M. Radulaski, S. Sun, D. Vercruysse, G. H. Ahn, J. Vučković, “4H-Silicon-Carbide-on-Insulator for Integrated Quantum and Nonlinear Photonics,” Nature Photonics, 14, 330-334 (2020).
    >> Media coverage: Nature Photonics editorial, Stanford Engineering Magazine.

2019

  1. C. Dory, D. Vercruysse, K. Y. Yang, N. V. Sapra, A. E. Rugar, S. Sun, D. M. Lukin, A. Y. Piggott, J. L. Zhang, M. Radulaski, K. G. Lagoudakis, L. Su, J. Vučković, "Inverse-Designed Diamond Quantum Photonics," Nature Communications 10, 3309 (2019)arXiv.1812.02287.
    >> Media coverage: Stanford Engineering Magazine.
  2. [invited article] M. Radulaski,* J. L. Zhang,* Y-K. Tzeng, K. G. Lagoudakis, H. Ishiwata, C. Dory, K. A. Fischer, Y. A. Kelaita, S. Sun, P. C. Maurer, K. Alassaad, G. Ferro, Z-X. Shen, N. A. Melosh, S. Chu, J. Vučković, “Nanodiamond integration with photonic devices,” Laser and Photonics Reviews 1800316 (2019), arXiv.1610.03183.
    >> Recognition: among top most downloaded papers in LPR in 2018-2019.
  3. R. Trivedi, M. Radulaski, K. A. Fischer, S. Fan, J. Vučković, "Photon blockade in weakly-driven cavity QED systems with many emitters," Physical Review Letters 122, 243602 (2019), arXiv.1901.03942.
  4. D. J. Ironside, A. M. Skipper, T. A. Leonard, M. Radulaski, T. Sarmiento, P. Dinghra, M. L. Lee, J. Vuckovic, S. R. Bank, "High-quality GaAs planar coalescence over embedded dielectric microstructures using an all-MBE approach," Crystal Growth and Design 19 (6) 3085-3091 (2019).

2018

  1. M. Radulaski,* R. Bose,* T. Tran, T. Van Vaerenbergh, D. Kielpinski, R. G. Beausoleil, “Thermally tunable hybrid photonic architecture for nonlinear optical circuits,” ACS Photonics 5 (11), 4323–4329 (2018), arXiv.1803.03591.
  2. S. Sun, J. L. Zhang, K. A. Fischer, M. J. Burek, C. Dory, K. G. Lagoudakis, Y-K. Tzeng, M. Radulaski, Y. A. Kelaita, A. Safavi-Naeini, Z-X. Shen, N. A. Melosh, S. Chu, M. Loncar, J. Vučković, "Cavity-Enhanced Raman Emission From a Single Color Center in a Solid," Physical Review Letters 121, 083601 (2018), arXiv.1804.06533.
  3. [invited viewpoint] M. Radulaski, "A Double Take on Unconventional Photon Blockade," Physics 11, 74 (2018).
  4. J. L. Zhang, S. Sun, M. J. Burek, C. Dory, Y.-K. Tzeng, K. A. Fischer, Y. A. Kelaita, K. G. Lagoudakis, M. Radulaski, Z-X. Shen, N. A. Melosh, S. Chu, M. Lončar, J. Vučković, "Strongly Cavity-Enhanced Spontaneous Emission from Silicon-Vacancy Centers in Diamond," Nano Letters 18 (2), 1360-1365 (2018), arXiv.1708.05771.
  5. R. Nagy, M. Widmann, M. Niethammer, D. B. R. Dasari, I. Gerhardt, Ö. Soykal, M. Radulaski, T. Ohshima, J. Vučković, N. T. Son, I. G. Ivanov, S. Economou, C. Bonato, S.-Y. Lee, J. Wrachtrup, “Quantum properties of dichroic silicon vacancies in silicon carbide,” Physical Review Applied 9, 034022 (2018), arXiv.1707.02715.

Before 2018

  1. J. L. Zhang, K. G. Lagoudakis, Y.-K. Tzeng, C. Dory, M. Radulaski, Y. Kelaita, K. A. Fischer, Z.-X. Shen, N. A. Melosh, S. Chu, J. Vučković, “Complete Coherent Control of Silicon-Vacancies in Diamond Nanopillars Containing Single Defect Centers,” Optica 4, 1317-1321 (2017), arXiv.1701.04961.
  2. M. Radulaski, K. A. Fischer, K. G. Lagoudakis, J. L. Zhang, J. Vučković, “Photon Blockade in Two-Emitter-Cavity Color Center Systems,” Physical Review A 96, 011801(R) (2017), arXiv.1612.03261.
  3. M. Radulaski,* M. Widmann,* M. Niethammer, J. L. Zhang, S.-Y. Lee, T. Rendler, K. G. Lagoudakis, N. T. Son, E. Janzen, T. Ohshima, J. Wrachtrup, J. Vučković, “Scalable Quantum Photonics with Single Color Centers in Silicon Carbide”, Nano Letters 17 (3), 1782-1786 (2017), arXiv.1612.02874.
    >> Media coverage: nanotechweb.org, Stanford News, Stanford Daily, Science Daily, PhysOrg, EurekAlert!, R&D Magazine, Nanowerk, Scienmag, NextBigFuture, eScienceNews, Public, World News, Science Newsline, Futurist, Parallel State, Newsblock, Goggles Optional.
  4. K. G. Lagoudakis, K. A. Fischer, T. Sarmiento, P. L. McMahon, M. Radulaski, L. J. Zhang, Y. Kelaita, C. Dory, K. Müller, J. Vučković, “Observation of Mollow Triplets with Tunable Interactions in Double Lambda Systems of Individual Hole Spins”, Physical Review Letters 118, 013602 (2017), arXiv.1701.05427.
  5. J. L. Zhang, H. Ishiwata, T. M. Babinec, M. Radulaski, K. Müller, K. G. Lagoudakis, J. Dahl, R. Edgington, V. Soulière, G. Ferro, A. A. Fokin, P. R. Schreiner, Z. X. Shen, N. A. Melosh, J. Vučković “Hybrid Group IV Nanophotonic Structures Incorporating Diamond Silicon-Vacancy Color Centers,” Nano Letters 16, 1 (2015), arXiv.1509.01617.
  6. M. Radulaski, T. M. Babinec, K. Müller, K. G. Lagoudakis, J. L. Zhang, S. Buckley, Y. A. Kelaita, K. Alassaad, G. Ferro, J. Vučković “Visible Photoluminescence from Cubic (3C) Silicon Carbide Microdisks Coupled to High Quality Whispering Gallery Modes,” ACS Photonics 2, 14-19 (2014), arXiv.1410.3800.
  7. S. Buckley, M. Radulaski, J. L. Zhang, J. Petykiewicz, K. Biermann, J. Vučković “Multimode Nanobeam Cavities for Nonlinear Optics: High Quality Resonances Separated by an Octave,” Optics Express 22, 22 (2014), arXiv.1408.6567.
  8. S. Buckley, M. Radulaski, J. L. Zhang, J. Petykiewicz, K. Biermann, J. Vučković “Nonlinear Frequency Conversion Using High Quality Modes in GaAs Nanobeam Cavities,” Optics Letters 39, 19 (2014), arXiv.1407.1446.
  9. S. Buckley, M. Radulaski, J. Petykiewicz, K. G. Lagoudakis, J. H. Kang, M. Brongersma, K. Biermann, J. Vučković “Second Harmonic Generation in GaAs Photonic Crystal Cavities in (111)B and (001) Crystal Orientations,” ACS Photonics 1, 6 (2014), arXiv.1402.3739.
  10. M. Radulaski, T. M. Babinec, S. Buckley, A. Rundquist, J. Provine, K. Alassaad, G. Ferro, J. Vučković “Photonic Crystal Cavities in Cubic (3C) Polytype Silicon Carbide Films,” Optics Express 21, 26 (2013), arXiv.1310.2222.
  11. S. Buckley, M. Radulaski, K. Biermann, J. Vučković “Second Harmonic Generation in Photonic Crystal Cavities in (111)-Oriented GaAs,” Applied Physics Letters 103, 211117 (2013), arXiv.1308.6051.
  12. I. H. Chu, M. Radulaski, N. Vukmirović, H. P. Cheng, L. W. Wang “Charge Transport in a Quantum Dot Supercrystal,” Journal of Physical Chemistry C 115, 43 (2011).

 

Book Chapters

  1. Marina Radulaski,* Kevin Fischer,* Jelena Vučković, Nonclassical Light Generation From III-V and Group-IV Solid-State Cavity Quantum Systems. In Ennio Arimondo, Chun C. Lin, Susanne F. Yelin, editors: Advances in Atomic, Molecular, and Optical Physics, Vol 66, AAMOP, UK: Academic Press, 2017, pp. 111-179. Elsevier, arXiv.
  2. Marina Radulaski, Jelena Vučković, Quantum Photonics Incorporating Color Centers in Silicon Carbide and Diamond, to appear in The Proceedings on Latest Achievements in Physics on the Occasion of the 20th Anniversary of the "Prof. Dr. Marko V. Jaric" Foundation, arXiv.

*equal contribution

 

Theses

  1. Sridhar Majety, Triangular Cross-Section Photonics in 4H-Silicon Carbide for Quantum Information Processing, PhD Thesis, March 2024.
  2. Raunaq Chopra, Light-Matter Interaction in Coupled Cavity Arrays with Disordered Emitters, MSc Thesis, March 2023.