QUANTUM INFORMATION CRYOGENICS LAB PROCESSING GROUP TOM OHKI EDUCATION HIGHLIGHTS: Ph.D., physics, University of Rochester with Profs. Feldman and Bocko. Postdoctoral research, Chalmers with Prof. Herr. At Raytheon: Leads the cryogenic computing lab in the development and applications of superconducting devices for quantum information, microwave systems and digital technologies. Active research areas include superconducting quantum and classical computing, as well as superconducting devices hybridized with spintronic and 2-D materials. AT RAYTHEON: Leads various programs related to superconducting materials studies for qubits and scaling superconducting quantum processors. PUBLICATIONS PUBLICATIONS BLAKE JOHNSON EDUCATION HIGHLIGHTS: Ph.D, physics, Yale University; studied under Prof. Rob Schoelkopf. AT RAYTHEON: Researches the implementation of qubits, or quantum bits, with the goal of one day building a practical quantum computer. COLM RYAN EDUCATION HIGHLIGHTS: Ph.D., physics, University of Waterloo; postdoctoral work with David Cory at MIT. AT RAYTHEON: Specializes in controlling and characterizing quantum information processing systems and building the hardware to do so. Has built setups including liquid and solid-state nuclear magnetic resonance and conventional and optically detected electron spin resonance. Has focused on superconducting qubits and building the hardware infrastructure for fast feedback and dynamically steered experiments. 4430597 GBS AM 1/17 This document does not contain Technical Data or Technology controlled under either the U.S. International Traffic in Arms Regulations or the U.S. Export Administration Regulations. E16-9GXG PUBLICATIONS
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QUANTUM INFORMATION
CRYOGENICS LAB
PROCESSING GROUP
TOM OHKIEDUCATION HIGHLIGHTS: Ph.D., physics, University of Rochester with Profs. Feldman and Bocko. Postdoctoral research, Chalmers with Prof. Herr. At Raytheon: Leads the cryogenic computing lab in the development and applications of superconducting devices for quantum information, microwave systems and digital technologies. Active research areas include superconducting quantum and classical computing, as well as superconducting devices hybridized with spintronic and 2-D materials.
AT RAYTHEON: Leads various programs related to superconducting materials studies for qubits and scaling superconducting quantum processors.
PUBLICATIONS
PUBLICATIONS
BLAKE JOHNSONEDUCATION HIGHLIGHTS: Ph.D, physics, Yale University; studied under Prof. Rob Schoelkopf.
AT RAYTHEON: Researches the implementation of qubits, or quantum bits, with the goal of one day building a practical quantum computer.
COLM RYANEDUCATION HIGHLIGHTS: Ph.D., physics, University of Waterloo; postdoctoral work with David Cory at MIT.
AT RAYTHEON: Specializes in controlling and characterizing quantum information processing systems and building the hardware to do so. Has built setups including liquid and solid-state nuclear magnetic resonance and conventional and optically detected electron spin resonance. Has focused on superconducting qubits and building the hardware infrastructure for fast feedback and dynamically steered experiments.
4430597 GBS AM 1/17This document does not contain Technical Data or Technology controlled under either the U.S. International Traffic in Arms Regulations or the U.S. Export Administration Regulations. E16-9GXG
AT RAYTHEON: Works on the design, fabrication and measurement of novel superconducting circuits with applications including ultra-fast digital logic, quantum limited amplifiers and quantum computation.
EDUCATION HIGHLIGHTS: Ph.D., applied physics, Delft University of Technology; studied in Prof. Leo DiCarlo’s superconducting quantum circuits group.
AT RAYTHEON: Works on dynamic quantum control experiments, which use measurement results in real time for quantum computing and error correction.
EDUCATION HIGHLIGHTS: Ph.D., physics, Syracuse University; studied under Prof. Britton Plourde, thesis work studied sideband and cross-resonance interactions in superconducting qubit systems.
AT RAYTHEON: Works on instrumentation and measurement of superconducting quantum bit systems. Focus includes new qubit design, fabrication and packaging.
EDUCATION HIGHLIGHTS: Ph.D., physics, Ohio State University; advisor Prof. Chris Hammel.
AT RAYTHEON: Researches the development of low-noise measurement techniques to explore quantum physics in mesoscopic systems and low-dimension materials such as graphene.
4430597 GBS AM 1/17This document does not contain Technical Data or Technology controlled under either the U.S. International Traffic in Arms Regulations or the U.S. Export Administration Regulations. E16-9GXG
EDUCATION HIGHLIGHTS: Ph.D., physics, University of Wisconsin-Madison; studied under Prof. Robert McDermott.
AT RAYTHEON: Works on the fabrication and measurement of qubits.
EDUCATION HIGHLIGHTS: Ph.D., electrical engineering, Politecnico di Milano.
AT RAYTHEON: Works on superconducting parametric amplifiers, Josephson and kinetic inductance-based, nonreciprocity in multi-pump parametric devices and miniaturized Purcell filters.
EDUCATION HIGHLIGHTS: Ph.D., University of California, Irvine; advisor Prof. Ilya Krivorotov; postdoctoral research at Cornell University; advisor Robert Buhrman.
AT RAYTHEON: Works on a project involving cryogenic complexity, which seeks to marry magnetic memories with SFQ superconducting logic schemes in order to facilitate energy efficient exascale computing.
COMPUTER AND SOFTWARE ARCHITECTURE
RICH LAZARUS
PUBLICATIONS
EDUCATION HIGHLIGHTS: Master’s degree, systems and control engineering, Case Western Reserve University. Advisor Kenneth Loparo. Bachelor’s degree, electrical engineering and biomedical engineering, Duke University.
AT RAYTHEON: Focuses on creating software that enables people to learn sophisticated skills or manage complex systems.
4430597 GBS AM 1/17This document does not contain Technical Data or Technology controlled under either the U.S. International Traffic in Arms Regulations or the U.S. Export Administration Regulations. E16-9GXG
ROB McGURRINEDUCATION HIGHLIGHTS: Master of Science, electrical engineering, Georgia Institute of Technology, Master of Science, engineering management, Tufts University.
AT RAYTHEON: Is building an experimental framework for quantum electronics.
SAIKAT GUHA
MARCUS da SILVA
PUBLICATIONS
PUBLICATIONS
EDUCATION HIGHLIGHTS: Ph.D., physics, University of Waterloo; studied under Profs. Raymond Laflamme and Frank Wilhelm.
AT RAYTHEON: Works on the characterization and verification of quantum information devices.
EDUCATION HIGHLIGHTS: Ph.D., electrical engineering and computer science, Massachusetts Institute of Technology.
AT RAYTHEON: Researches the limits quantum physics places on optics-based information processing.
4430597 GBS AM 1/17This document does not contain Technical Data or Technology controlled under either the U.S. International Traffic in Arms Regulations or the U.S. Export Administration Regulations. E16-9GXG
STEVE LOWEEDUCATION HIGHLIGHTS: Ph.D, mathematics, Massachusetts Institute of Technology.
AT RAYTHEON: Works on mathematical modeling and simulation.
EDUCATION HIGHLIGHTS: Ph.D, computer science, University of Massachusetts, Amherst; advisor Prof. Don Towsley
AT RAYTHEON: Researches low-probability-of-detection/intercept (LPD/LPI) communications, quantum key distribution systems, and information-theoretic and signal-processing aspects of covert and secure communication.
EDUCATION HIGHLIGHTS: Ph.D. theoretical physics, UCM Madrid, Spain; postdoctoral researcher at Harvard University; advisor Prof. Alán Aspuru-Guzik.
AT RAYTHEON: Works on quantum optics and quantum computing with superconducting circuits.
DAN GREENBAUMEDUCATION HIGHLIGHTS: Ph.D., theoretical physics, Massachusetts Institute of Technology.
AT RAYTHEON: Researches how the noise that affects physical qubits changes the performance of quantum error correction.
PUBLICATIONS
PUBLICATIONS
4430597 GBS AM 1/17This document does not contain Technical Data or Technology controlled under either the U.S. International Traffic in Arms Regulations or the U.S. Export Administration Regulations. E16-9GXG
HARI KROVI
PUBLICATIONS
EDUCATION HIGHLIGHTS: Ph.D., physics, University of Southern California; studied under Prof. Todd Brun.
AT RAYTHEON: Works on quantum walk algorithms, Fourier analytic algorithms and adiabatic algorithms. Works on quantum communications, quantum key distribution and quantum imaging. Has an interest in implementations of quantum algorithms using superconducting qubits as well as implementations of communication and imaging schemes using quantum optics.
EDUCATION HIGHLIGHTS: Ph.D., theoretical physics, Harvard University, studied under Prof. Lene Hau.
Post-doctoral fellowship at NIST-Gaithersburg with Dr. Charles Clark; previously staff physicist at Naval Research Lab.
AT RAYTHEON: Leads business strategy and operations for the Quantum Information Processing group. Research has focused on quantum enhanced optical remote sensing, quantum networks, quantum limited communication receivers and codes, superconducting quantum circuits and quantum computation.
4430597 GBS AM 1/17This document does not contain Technical Data or Technology controlled under either the U.S. International Traffic in Arms Regulations or the U.S. Export Administration Regulations. E16-9GXG
QUANTUM AND INTEGRATED OPTICS
JON HABIFEDUCATION HIGHLIGHTS: Ph.D., applied physics, University of Rochester. Postdoctoral associate at Massachusetts Institute of Technology
AT RAYTHEON: Principal investigator for a number of DARPA-sponsored research programs, partnering with university collaborators to demonstrate revolutionary optical technologies impacting traditional communications, sensing, and computation systems. Leads the experimental optics laboratory. The technologies under investigation in the laboratory include photon-starved, classical communication and imaging, quantum-secured optical communications in free-space and fiber, and integrated nano-photonic for both classical and non-classical applications.
PUBLICATIONS
MOHAMMAD SOLTANIEDUCATION HIGHLIGHTS: Ph.D., optics and photonics, Georgia Institute of Technology. Postdoctoral training, Laboratory of Atomic and Solid State Physics, Cornell University.
AT RAYTHEON: Leads integrated nanophotonic research for classical and quantum applications in communications, microwave and radio signal processing, and sensing and imaging.
BOB BIEHLEDUCATION HIGHLIGHTS: Master of science, information systems, George Mason University.
AT RAYTHEON: Has led numerous projects for defense and intelligence applications including remote sensing and cognitively inspired computer learning algorithms.
EDUCATION HIGHLIGHTS: MBA, Boston College.
AT RAYTHEON: Manages the business of several government-funded research-and-development programs.
EDUCATION HIGHLIGHTS: Bachelor of science, mathematics, University of Massachusetts.
AT RAYTHEON: Serves as the administrative assistant for the Quantum Information Processing group.
4430597 GBS AM 1/17This document does not contain Technical Data or Technology controlled under either the U.S. International Traffic in Arms Regulations or the U.S. Export Administration Regulations. E16-9GXG
