R
Richard C. Lanza
Researcher at Massachusetts Institute of Technology
Publications - 144
Citations - 3407
Richard C. Lanza is an academic researcher from Massachusetts Institute of Technology. The author has contributed to research in topics: Coded aperture & Detector. The author has an hindex of 26, co-authored 144 publications receiving 3274 citations. Previous affiliations of Richard C. Lanza include Beth Israel Deaconess Medical Center & University of Pennsylvania.
Papers
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Journal ArticleDOI
Electroproduction of hadrons from nuclei
L. S. Osborne,C. Bolon,Richard C. Lanza,D. Luckey,D.G. Roth,J. F. Martin,G. J. Feldman,M. E. B. Franklin,G. Hanson,M. L. Perl +9 more
TL;DR: In this paper, the authors measured the electroproduction of hadrons from nuclei and compared it to the electroproduct from deuterium, finding an attenuation of the forward component which increases with $A.
Journal ArticleDOI
Large area imaging detector for long-range, passive detection of fissile material
Klaus P. Ziock,William W. Craig,Lorenzo Fabris,Richard C. Lanza,S. Gallagher,Berthold K. P. Horn,Norman W. Madden +6 more
TL;DR: In this article, the authors describe the background problems, the advantages of imaging and the construction of a prototype, large-area (0.57 m/sup 2/) gamma-ray imager to detect nuclear materials at distances of /spl sim/ 100 m.
Patent
Systems And Methods For Multi-Modal Imaging
TL;DR: In this article, a coded aperture detection system and an optical detection system were proposed for sentinel lymph node mapping and tissue resection, respectively, which can detect the presence of a radionuclide within an object and provide a first detector signal from the detected radiation.
Journal ArticleDOI
Fast neutron resonance radiography for elemental imaging: theory and applications
Gongyin Chen,Richard C. Lanza +1 more
TL;DR: Fast neutron resonance radiography (NRR) has been devised as an elemental imaging method with applications such as contraband detection and mineral analysis as discussed by the authors, where a two-dimensional (2D) elemental mapping of hydrogen, carbon, nitrogen, oxygen, and the sum of other elements is obtained from fast neutron radiographic images, taken at different neutron energies and chosen to cover the resonance cross-section features of one or more elements.
Journal ArticleDOI
A single arm spectrometer detector system for high-energy heavy-ion experiments
T. Abbott,M. Abreu,Y. Akiba,David E. Alburger,D. R. Beavis,Russell Richard Betts,L. Birstein,Ma Bloomer,P. D. Bond,C. Chasman,Y. Y. Chu,Brian Cole,J. B. Costales,H. J. Crawford,J. B. Cumming,R. R. Debbe,E. Duek,H.A. Enge,J. Engelage,S. Y. Fung,L. Grodzins,S. Gushue,Hideki Hamagaki,O. Hansen,P. E. Haustein,Shinichi Hayashi,S. Homma,H. Z. Huang,Yuichi Ikeda,I. Juricic,S. Katcoff,S. B. Kaufman,K. Kimura,K. Kurita,Richard C. Lanza,R. J. Ledoux,M. J. LeVine,M.A.J. Mariscotti,Yasuo Miake,R. J. Morse,S. Nagamiya,J.W. Olness,C. G. Parsons,L. P. Remsberg,M. Sarabura,A. Shor,P. Stankus,S. G. Steadman,George Stephans,T. Sugitate,M. Tanaka,M. J. Tannenbaum,M. Torikoshi,J. H. van Dijk,F. Videbaek,P. Vincent,E. Vulgaris,V. Vutsadakis,B.F. Wadsworth,W. A. Watson,H. E. Wegner,D. S. Woodruff,Y. D. Wu,W. A. Zajc +63 more
TL;DR: The E-802 experiment as mentioned in this paper employs event characterization detectors, a charged-particle multiplicity array, a highly segmented lead-glass detector, and a zero degree calorimeter.