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Karl Krushelnick from the University of Michigan, was awarded the status of Fellow in the American Physical Society, after he was nominated by the university's Division of Plasma Physics in 2007, for pioneering contributions to experimental high-intensity laser plasma physics including the production of high-quality relativistic electron beams, energetic proton beams and the development of techniques to measure very large magnetic fields in intense laser-produced plasmas.
Research area keywords: Basic relativistic plasma studies, Table-top particle accelerators, Ultra-strong magnetic fields.
His research is in the area of ultra-high intensity laser plasma interactions. At the Center for Ultrafast Optical Science (CUOS) at Michigan we have several state-of-the-art high power short pulse laser systems including the “Hercules” laser – which will soon be operational at 0.5 Petawatts (1015 Watts). One major use of these laser systems is the development of “table-top” accelerators for both relativistic electrons and ions – and the subsequent production of narrow bandwidth x-ray sources. The interaction of intense laser pulses with high density targets is also important for “fast ignition” in inertial confinement fusion experiments. Our work in this area involves measurements of fast electron generation and propagation as well as measurements of the very large (Gigagauss) magnetic fields which can also be produced in these interactions.
Research area keywords: Basic relativistic plasma studies, Table-top particle accelerators, Ultra-strong magnetic fields.
His research is in the area of ultra-high intensity laser plasma interactions. At the Center for Ultrafast Optical Science (CUOS) at Michigan we have several state-of-the-art high power short pulse laser systems including the “Hercules” laser – which will soon be operational at 0.5 Petawatts (1015 Watts). One major use of these laser systems is the development of “table-top” accelerators for both relativistic electrons and ions – and the subsequent production of narrow bandwidth x-ray sources. The interaction of intense laser pulses with high density targets is also important for “fast ignition” in inertial confinement fusion experiments. Our work in this area involves measurements of fast electron generation and propagation as well as measurements of the very large (Gigagauss) magnetic fields which can also be produced in these interactions.
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PLASMA PHYSICS AND CONTROLLED FUSIONno. 8 (2023)
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L. Willingale,A. Maksimchuk,J. Nees, F. Bayer,P.T. Campbell,B. Hou,M. Burger,I. Jovanovic, G. Kalinchenko,C. Kuranz,Y. Ma,A. McKelvey,
2023 IEEE International Conference on Plasma Science (ICOPS)pp.01-01, (2023)
Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment (2023): 168195-168195
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JOURNAL OF INSTRUMENTATIONno. 6 (2023): T06001-T06001
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M. W. von der Leyen, J. Holloway,Y. Ma,P. T. Campbell,R. Aboushelbaya, Q. Qian,A. F. Antoine,M. Balcazar, J. Cardarelli,Q. Feng, R. Fitzgarrald, B. X. Hou,
PHYSICS OF PLASMASno. 9 (2023)
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arxiv(2022)
I Ouatu,B T Spiers,R Aboushelbaya,Q Feng,M W von der Leyen, R W Paddock, R Timmis,C Ticos,K M Krushelnick,P A Norreys
Physical Review Accelerators and Beamsno. 10 (2022)
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