2025

  • ‘Reconfigurable Non-Hermitian Soliton Combs using Dissipative Couplings and Topological Windings’, S.D. Hashemi, S. Mittal, Science Advances, 11,eadu6554 (2025)
  • ‘On-chip multi-timescale spatiotemporal optical synchronization’, L. Xu, M. J. Mehrabad, C. J Flower, G. Moille, A. Restelli, D. G Suarez-Forero, Y. Chembo, S. Mittal, K. Srinivasan, M. Hafezi, arXiv:2502.15671
  • ‘Floquet-Based Ising Machines Escape Local Minima in QUBO Problems’, N. Casilli, S. Kim, S. Mittal, M. Onabajo, A. Alu, C. Cassella, under review
 

 

2024

  • ‘Floquet topological dissipative Kerr solitons and incommensurate frequency combs’, S.D. Hashemi, S. Mittal, Nature Communications, 15, 9642 (2024).
  • ‘Observation of topological frequency combs’, C. Flower, M.J. Mehrabad, L. Xu, G. Moille, D.G. Suarez-Forero, O. Orsel, G. Bahl, Y. Cembo, K. Srinivasan, S. Mittal, M. Hafezi,  Science, 384, 6702 (2024).
  • ‘Dynamic control of 2D non-Hermitian photonic corner states in synthetic dimensions’, X. Zhang, M.J. Mehrabad, J. Vannucci, K. Li, A. Dutt, M. Hafezi, S. Mittal, E. Waks, Nature Communications, 15, 10881 (2024).
  • ‘Excitonic Mott Insulator in a Bose-Fermi-Hubbard system of moire WS2/WSe2 heterobilayer’, Beini Gao, Daniel G Suárez-Forero, Supratik Sarkar, Tsung-Sheng Huang, Deric Session, Mahmoud Jalali Mehrabad, Ruihao Ni, Ming Xie, Pranshoo Upadhyay, Jonathan Vannucci, Sunil Mittal, Kenji Watanabe, Takashi Taniguchi, Atac Imamoglu, You Zhou, Mohammad Hafezi, Nature Communications, 15, 2305 (2024)

2023

  • ‘Topological photonics: fundamental concepts, recent developments, and future directions’, M.J. Mehrabad, S. Mittal, M. Hafezi, Phys. Rev. A., 108, 040101 (2023).
  • ‘Topological edge mode tapering’, C.J. Flower, S. Barik, M.J. Mehrabad, N.J. Martin, S. Mittal, M. Hafezi,  ACS Photonics, 10,10, 3502-3507 (2023).

2022

  •  ‘Magneto-optical measurements of the negatively charged 2s exciton in WSe2’, JC Sell, JR Vannucci, DG Suarez-Forero, B Cao, DW Session, H-J Chuang, K McCreary, M Rosenberger, B Jonker, S Mittal, M Hafezi, Phys. Rev. B, 106, L081409, (2022).

2021 and Earlier

  • ‘Topological frequency combs and nested temporal solitons’, Mittal S., G. Moille, K. Srinivasan, Y. K. Chembo, M. Hafezi, , Nature Physics, 17, 1169-1176 (2021).
  • ‘Tunable quantum interference using a topological source of indistinguishable photon pairs’, Mittal S., V. V. Orre, E. Goldschmidt, M. Hafezi, , Nature Photonics, 15, 542-548 (2021) (equal contribution).
  • ‘Mode delocalization in disordered photonic Chern insulator’, Chattopadhyay, S. Mittal, M. Hafezi, Y.D. Chong, , Phys. Rev. B, 103, 214201 (2021).
  • ‘Guiding and confining of light in a two-dimensional synthetic space using electric fields’, Chalabi, S. Barik, S. Mittal, T. Murphy, M. Hafezi, E. Waks, , Optica, 7, 5, 506-513 (2020).
  • ‘Chiral quantum optics using a topological resonator’, Barik, A. Karashahin, S. Mittal, M. Hafezi, E. Waks, , Phys. Rev. B, 101, 205303 (2020).
  • ‘Quantum cascade laser lives on the edge’, Mittal, E. Waks, , Nature News and Views, 578, 219-220 (2020).
  • ‘Photonic quadrupole topological phases’, Mittal S., V. V. Orre, G. Zhu, M. Gorlach, A. Poddubny, M. Hafezi, , Nature Photonics, 13, 692-696 (2019).
  • ‘Photonic anomalous Hall effect’, Mittal S., V. V. Orre, D. Leykam, Y. D. Chong, M. Hafezi, , Phys. Rev. Lett., 123, 043201 (2019).
  • ‘Interference of temporally distinguishable photons using frequency-resolved detection’, V. Orre, E. Goldschmidt, A. Deshpande, A. V. Gorshkov, V. Tamma, M. Hafezi, S. Mittal, , Phys. Rev. Lett., 123, 123603 (2019)
  • ‘Synthetic gauge field for two-dimensional time-multiplexed quantum random walks’, Chalabi, S. Barik, S. Mittal, M. Hafezi, T. Murphy, E. Waks, Phys. Rev. Lett., 123, 150503 (2019).
  • ‘A topological source of quantum light’, Mittal S., E. Goldschmidt, M. Hafezi, , Nature, 561, 502-506 (2018).
  • ‘Reconfigurable topological phases in next-nearest-neighbor coupled resonator lattices’, Leykam, S. Mittal, M. Hafezi, Y Chong, Phys. Rev. Lett., 121, 023901 (2018).
  • ‘Topological photonic systems’, Mittal, W. DeGottardi, M. Hafezi, Optics and Photonics News, 29, 5, 36-43 (2018).
  • ‘Temporal and spectral manipulations of correlated photons’, Mittal S., V. Orre, A. Restelli, R. Salem, E. Goldschmidt, M. Hafezi, Phys. Rev. A., 96, 043807 (2017).
  • ‘Topologically robust transport of entangled photons in a 2D photonic system’, Mittal S., V. Orre, M. Hafezi, Optics Express, 24, 15631 – 15641 (2016).
  • ‘Measurement of topological invariants in a 2D photonic system’, Mittal S., S. Ganeshan, J. Fan, A. Vaezi, M. Hafezi,  Nature Photonics, 10, 180-183 (2016).
  • ‘On-chip silicon waveguide Bragg grating photonic temperature sensor’, Klimov, S. Mittal, M. Berger, Z. Ahmed,  Optics Letters, 40, 3934 (2015).
  • ‘Round the bend with microwaves’, Mittal, M. Hafezi,  Nature News and Views, 522, 292-293 (2015).
  • ‘Topologically robust transport of photons in a synthetic gauge field’, Mittal S., J. Fan, S. Faez, A. Migdall, J. Taylor, M. Hafezi, Phys. Rev. Lett., 113, 087403 (2014).
  • ‘Imaging topological edge states in silicon photonics’, Hafezi, S. Mittal, J. Fan, A. Migdall, J. Taylor,  Nature Photonics, 7, 1001 – 1005 (2013).
  • ‘Integrated optical dipole trap for cold neutral atoms with an optical waveguide coupler’, Lee, D. H. Park, S. Mittal, M. Dagenais, S. L. Rolston,  New Journal of Physics, 15, 043010 (2013).
  • ‘A new process for the fabrication of planar antenna coupled Ni-NiOx-Ni tunnel junction devices’, Yesilkoy, S. Mittal, N. Goldsman, M. Dagenais, M. Peckerar,  Microelectronic Engineering, 98, 329-333 (2012).