Publications

Nuclear Spin Engineering for Quantum Information Science

J. C. Marcks, B. Pingault, J. Zhang, C. Zeledon, F. J. Heremans, D. D. Awschalom. Nuclear Spin Engineering for Quantum Information Science. 2025. J. Mater. Res. 10.1557/s43578-025-01602-x

A high-resolution molecular spin-photon interface at telecommunications wavelengths

L. R. Weiss, G. T. Smith, R. A. Murphy, B. Golesorkhi, J. A. M. Méndez, P. Patel, J. Niklas, O. G. Poluektov, J. R. Long, D. D. Awschalom. A high-resolution molecular spin-photon interface at telecommunications wavelengths. 2025. arXiv:2505.17195

Minute-long quantum coherence enabled by electrical depletion of magnetic noise

C. Zeledon, B. Pingault, J. C. Marcks, M. Onizhuk, Y. Tsaturyan, Y.-X. Wang, B. S. Soloway, H. Abe, M. Ghezellou, J. Ul-Hassan, T. Ohshima, N. T. Son, F. J. Heremans, G. Galli, C. P. Anderson, D. D. Awschalom. Minute-long quantum coherence enabled by electrical depletion of magnetic noise. 2025. arXiv:2504.13164

Valley Splitting Correlations Across a Silicon Quantum Well

J. C. Marcks, E. Eagen, E. C. Brann, M. P. Losert, T. Oh, J. Reily, C. S. Wang, D. Keith, F. A. Mohiyaddin, F. Luthi, M. J. Curry, J. Zhang, F. J. Heremans, M. Friesen, M. A. Eriksson. Valley Splitting Correlations Across a Silicon Quantum Well. 2025. arXiv:2504.12455

First-Principles Framework for the Prediction of Intersystem Crossing Rates in Spin Defects: The Role of Electron Correlation

Y. Jin, J. Park, M. M. McMillan, D. D. Ohm, C. Barnes, B. Pingault, C. Egerstrom, B. Huang, M. Govoni, F. J. Heremans, D. D. Awschalom, G. Galli. First-Principles Framework for the Prediction of Intersystem Crossing Rates in Spin Defects: The Role of Electron Correlation. 2025. arXiv:2502.19658

A fluorescent-protein spin qubit

J.S. Feder, B. S. Soloway, S. Verma, Z. Z. Geng, S. Wang, B. Kifle, E. G. Riendeau, Y. Tsaturyan, L. R. Weiss, M. Xie, J. Huang, A. Esser-Kahn, L. Gagliardi, D. D. Awschalom, P. C. Maurer. A fluorescent-protein spin qubit. 2024. arXiv:2411.16835

Optical and spin coherence of Er3+ in epitaxial CeO2 on silicon

J. Zhang, G. D. Grant, I. Masiulionis, M. T. Solomon, J. K. Bindra, J. Niklas, A. M. Dibos, O. G. Poluektov, F. J. Heremans, S. Guha, D. D. Awschalom. Optical and spin coherence of Er3+ in epitaxial CeO2 on silicon. 2024. npj Quantum Inf. 10.1038/s41534-024-00903-z

Practical hybrid PQC-QKD protocols with enhanced security and performance

P. Zeng, D. Bandyopadhyay, J. A. M. Méndez, N. Bitner, A. Kolar, M. T. Solomon, Z. Ye, F. Rozpȩdek, T. Zhong, F. J. Heremans, D. D. Awschalom, L. Jiang, J. Liu. Practical hybrid PQC-QKD protocols with enhanced security and performance. 2024. arXiv:2411.01086

Towards efficient and secure quantum-classical communication networks

P. Zeng, D. Bandyopadhyay, J. A. M. Méndez, N. Bitner, A. Kolar, M. T. Solomon, F. J. Heremans, D. D. Awschalom, L. Jiang, J. Liu. Towards efficient and secure quantum-classical communication networks. 2024. arXiv:2411.01081

Extended spin relaxation times of optically addressed vanadium defects in silicon carbide at telecommunication frequencies (Phys. Rev. Applied Editors' Suggestion)

J. Ahn, C. Wicker, N. Bitner, M. T. Solomon, B. Tissot, G. Burkard, A. M. Dibos, J. Zhang, F. J. Heremans, D. D. Awschalom. Extended spin relaxation times of optically addressed vanadium defects in silicon carbide at telecommunication frequencies. 2024. Phys. Rev. Applied 10.1103/PhysRevApplied.22.044078