E
E. Doucet
Researcher at University of Massachusetts Lowell
Publications - 7
Citations - 87
E. Doucet is an academic researcher from University of Massachusetts Lowell. The author has contributed to research in topics: Dissipation & Neutron. The author has an hindex of 5, co-authored 6 publications receiving 42 citations.
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Journal ArticleDOI
Machine learning n/γ discrimination in CLYC scintillators
TL;DR: The results show that a very basic artificial neural network can provide very good discrimination in the energy range investigated, and the k -means + + algorithm is capable of separating neutrons and gamma-rays in CLYC scintillators as well as suggesting reasonable window parameters for charge comparison methods.
Journal ArticleDOI
Mirror-symmetry violation in bound nuclear ground states.
D. E. M. Hoff,A. M. Rogers,S. M. Wang,P. C. Bender,K. Brandenburg,K. Childers,Jason A. Clark,Alexander Dombos,E. Doucet,S. Jin,R. Lewis,Sean Liddick,C. J. Lister,Zach Meisel,C. Morse,C. Morse,Witold Nazarewicz,Hendrik Schatz,Konrad Schmidt,Konrad Schmidt,D. Soltesz,Shiv Subedi,S. Waniganeththi +22 more
TL;DR: Here it is found that a J π = 5/2 − spin assignment is needed to explain the proton-emission pattern observed from the T Â= 3/2 isobaric-analogue state in rubidium-73, which is identical to the ground state of strontium-73.
Journal ArticleDOI
High fidelity dissipation engineering using parametric interactions
TL;DR: In this paper, a dissipative Bell-state stabilization protocol based on an approach which combines parametric and dispersive interactions to engineer exact stabilization of an arbitrary Bell state is presented, and the authors analyze the performance of the protocol and propose a circuit-QED implementation.
Journal ArticleDOI
Applications of C7LYC scintillators in fast neutron spectroscopy
T. Brown,P. Chowdhury,E. Doucet,E.G. Jackson,C. J. Lister,Alan Mitchell,C. Morse,A. M. Rogers,G.L. Wilson,N. D'Olympia,Matthew Devlin,Nikolaos Fotiades,J.A. Gomez,Shea Mosby,R. O. Nelson +14 more
TL;DR: The capabilities of 7 Li-enriched Cs 2 7 LiYCl 6 (C 7 LYC) scintillation detectors for fast neutron spectroscopy are explored in benchmark experiments that exploit its excellent pulse-shape discrimination between neutrons and γ rays, and its unprecedented ≈ 10% energy resolution for fast neutrons in the few MeV range.
Journal ArticleDOI
High-fidelity dissipative engineering using parametric interactions
TL;DR: This work proposes a protocol devoid of constraints, using parametric couplings to engineer dissipation for preparation of any maximally entangled two-qubit state, which allows high-fidelity entanglement generation with short convergence time, continuous control of the target state in the stabilized manifold, and is realizable with state-of-the-art superconducting qubit technology.