Folgen
Ginevra E. Cochran
Ginevra E. Cochran
Bestätigte E-Mail-Adresse bei llnl.gov
Titel
Zitiert von
Zitiert von
Jahr
Laser-driven ion acceleration via target normal sheath acceleration in the relativistic transparency regime
PL Poole, L Obst, GE Cochran, J Metzkes, HP Schlenvoigt, I Prencipe, ...
New Journal of Physics 20 (1), 013019, 2018
782018
Relativistic laser driven electron accelerator using micro-channel plasma targets
J Snyder, LL Ji, KM George, C Willis, GE Cochran, RL Daskalova, ...
Physics of Plasmas 26 (3), 2019
622019
Temporal resolution criterion for correctly simulating relativistic electron motion in a high-intensity laser field
AV Arefiev, GE Cochran, DW Schumacher, APL Robinson, G Chen
Physics of plasmas 22 (1), 2015
562015
Experiment and simulation of novel liquid crystal plasma mirrors for high contrast, intense laser pulses
PL Poole, A Krygier, GE Cochran, PS Foster, GG Scott, LA Wilson, ...
Scientific reports 6 (1), 32041, 2016
482016
Moderate repetition rate ultra-intense laser targets and optics using variable thickness liquid crystal films
PL Poole, C Willis, GE Cochran, RT Hanna, CD Andereck, ...
Applied Physics Letters 109 (15), 2016
352016
On-shot characterization of single plasma mirror temporal contrast improvement
L Obst, J Metzkes-Ng, S Bock, GE Cochran, TE Cowan, T Oksenhendler, ...
Plasma Physics and Controlled Fusion 60 (5), 054007, 2018
332018
Enhanced laser–plasma interactions using non-imaging optical concentrator targets
AG MacPhee, D Alessi, H Chen, G Cochran, MR Hermann, DH Kalantar, ...
Optica 7 (2), 129-130, 2020
232020
Enhancements in laser-generated hot-electron production via focusing cone targets at short pulse and high contrast
DR Rusby, PM King, A Pak, N Lemos, S Kerr, G Cochran, I Pagano, ...
Physical Review E 103 (5), 053207, 2021
152021
Emittance preserving thin film plasma mirrors for GeV scale laser plasma accelerators
A Zingale, N Czapla, DM Nasir, SK Barber, JH Bin, AJ Gonsalves, F Isono, ...
Physical Review Accelerators and Beams 24 (12), 121301, 2021
122021
Liquid crystal targets and plasma mirrors for laser based ion acceleration
DW Schumacher, PL Poole, C Willis, GE Cochran, R Daskalova, J Purcell, ...
Journal of Instrumentation 12 (04), C04023, 2017
92017
Enhancement of high energy X-ray radiography using compound parabolic concentrator targets
PM King, D Rusby, A Hannasch, N Lemos, G Tiwari, A Pak, S Kerr, ...
High Energy Density Physics 42, 100978, 2022
62022
Modeling pulse-cleaning plasma mirrors from dielectric response to saturation: A particle-in-cell approach
GE Cochran, PL Poole, DW Schumacher
Physics of Plasmas 26 (10), 2019
52019
Liquid crystals as high repetition rate targets for ultra intense laser systems
P Poole, C Willis, G Cochran, M McMahon, E Chowdhury, CD Andereck, ...
Frontiers in Optics, FTh3A. 5, 2015
52015
Development of a bright MeV photon source with compound parabolic concentrator targets on the National Ignition Facility Advanced Radiographic Capability (NIF-ARC) laser
SM Kerr, D Rusby, GJ Williams, K Meaney, DJ Schlossberg, A Aghedo, ...
Physics of Plasmas 30 (1), 2023
42023
Plasma expansion and relativistic filamentation in intense laser-irradiated cone targets
GE Cochran, AJ Kemp, SC Wilks, SM Kerr, GJ Williams, DA Alessi, ...
Physics of Plasmas 28 (11), 2021
42021
New computational and experimental approaches for studying ion acceleration and the intense laser-plasma interaction
GE Cochran
The Ohio State University, 2018
42018
Absorption of relativistic multi-picosecond laser pulses in wire arrays
AJ Kemp, SC Wilks, G Cochran, S Kerr, J Park, G Grim, R Tommasini
Physics of Plasmas 28 (10), 2021
32021
Criterion for correctly simulating relativistic electron motion in a high-intensity laser field
AV Arefiev, GE Cochran, DW Schumacher, APL Robinson, G Chen
AIP Conference Proceedings, 050001, 2016
32016
Enhanced electron acceleration by high-intensity lasers in extended (confined) preplasma in cone targets
DR Rusby, GE Cochran, A Aghedo, F Albert, CD Armstrong, A Haid, ...
Physics of Plasmas 30 (2), 2023
22023
Experimental verification of TNSA protons and deuterons in the multi-picosecond moderate intensity regime
J Park, J Kim, G Cochran, D Mariscal, RA Simpson, A Zylstra, T Ma
Physics of Plasmas 29 (6), 2022
22022
Das System kann den Vorgang jetzt nicht ausführen. Versuchen Sie es später erneut.
Artikel 1–20