F. Joseph Heremans
University of Chicago
14 Papers
6 Citations
F. Joseph Heremans is an academic researcher from University of Chicago. The author has contributed to research in topics: Quantum technology & Qubit. The author has an hindex of 11, co-authored 14 publications. Previous affiliations of F. Joseph Heremans include Argonne National Laboratory & University of California, Santa Barbara.
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Papers
Quantum guidelines for solid-state spin defects
Gary Wolfowicz,Gary Wolfowicz,F. Joseph Heremans,F. Joseph Heremans,Christopher P. Anderson,Shun Kanai,Hosung Seo,Adam Gali,Giulia Galli,Giulia Galli,David D. Awschalom,David D. Awschalom +11 more
TL;DR: In this article, a review of the key components of solid-state spin defects, with an emphasis on the properties of defects and of the host material, on engineering opportunities and on other pathways for improvement, is presented.
323
Accelerated quantum control using superadiabatic dynamics in a solid-state lambda system
Brian B. Zhou,Alexandre Baksic,Hugo Ribeiro,Christopher G. Yale,F. Joseph Heremans,F. Joseph Heremans,Paul C. Jerger,Adrian Auer,Guido Burkard,Aashish A. Clerk,David D. Awschalom,David D. Awschalom +11 more
TL;DR: In this article, a superadiabatic transitionless driving (SATD) protocol is proposed to accelerate the stimulated Raman adiabatic passage in a solid-state lambda system.
Spin–phonon interactions in silicon carbide addressed by Gaussian acoustics
Samuel J. Whiteley,Gary Wolfowicz,Gary Wolfowicz,Christopher P. Anderson,Alexandre Bourassa,He Ma,Meng Ye,Gerwin Koolstra,Kevin J. Satzinger,Kevin J. Satzinger,Martin V. Holt,F. Joseph Heremans,F. Joseph Heremans,Andrew Cleland,Andrew Cleland,David Schuster,Giulia Galli,Giulia Galli,David D. Awschalom,David D. Awschalom +19 more
TL;DR: In this paper, the spin state of divacancy defects in silicon carbide via mechanical driving is manipulated using a stroboscopic X-ray diffraction imaging technique, which reveals the importance of shear strain for future device engineering and enhanced spin-mechanical coupling.
Holonomic Quantum Control by Coherent Optical Excitation in Diamond.
Brian B. Zhou,Paul C. Jerger,Vladislav O. Shkolnikov,F. Joseph Heremans,F. Joseph Heremans,Guido Burkard,David D. Awschalom,David D. Awschalom +7 more
TL;DR: This work demonstrates arbitrary single-qubit holonomic gates from a single cycle of nonadiabatic evolution, eliminating the need to concatenate two separate cycles and demonstrates the enhanced robustness of detuned gates to excited-state decoherence.
199
Quantum Engineering With Hybrid Magnonic Systems and Materials (Invited Paper)
David D. Awschalom,Chunhui Rita Du,Rui He,F. Joseph Heremans,Axel Hoffmann,Justin T. Hou,Hidekazu Kurebayashi,Yi Li,Luqiao Liu,Valentine Novosad,Joseph Sklenar,Sean Sullivan,Dali Sun,Hong X. Tang,Vasyl Tyberkevych,Cody Trevillian,Adam W. Tsen,Leah R. Weiss,Wei Zhang,Xufeng Zhang,Liuyan Zhao,Ch. W. Zollitsch +21 more
- 08 Feb 2021
TL;DR: In this paper, the authors focus on the current frontiers with respect to utilizing magnons for novel quantum functionalities and highlight new opportunities for understanding the interactions between magnons and nitrogen-vacancy centers for quantum sensing and implementing quantum interconnects.