@article{oai:repo.qst.go.jp:00076701,
 author = {Masahiro, Osaka University, Yano and ジドコフ, アレクセイ and コーガ, ジェームズ and Tomonao, Osaka University, Hosokai and Ryosuke, Osaka University, Kodama and Zhidkov, Alexey and Kevin Koga, James},
 issue = {9},
 journal = {Physics of plasmas},
 month = {Sep},
 note = {Propagation of short and ultra-intense laser pulses in a semi-infinite space of overdense hydrogen plasma is analyzed via fully-relativistic, real geometry particle-in -cell (PIC) simulations including radiation friction. The relativistic transparency and hole-boring regimes are found to be sensitive to the transverse plasma field, backward light reflection, and laser pulse filamentation. For laser intensities approaching I~1024 W/cm2 the direct laser acceleration of protons, along with ion Coulomb explosion, results in their injection into the acceleration phase of the compressed electron wave at the front of the laser pulses. The protons are observed to be accelerated up to 10-20 GeV with densities around a few times the critical density. The effect strongly depends on initial density and laser intensity disappearing with initial density increase and intensity decrease.},
 pages = {093108-1--093108-8},
 title = {Effects of hole-boring and relativistic transparency on particle acceleration in overdense plasma irradiated by short multi-PW laser pulses},
 volume = {26},
 year = {2019}
}