A new type of MeV ion generation at laser-plasma interaction has been measured based on the observation [1] that ps neodymium glass laser pulses of about TW and higher power do not produce the relativistic self-focusing based very high ion energies but more than 50 times lower energies. On top the strange observation was reported [1] that the number of the emitted fast ions did not change at variation of the laser focus intensity by a factor of 30. This can be explained by the effect that without an irradiating prepulse, a pure plane geometric skin layer interaction mechanismoccurs [2]. Neither relativistic self-focusing is possible nor the process of thermalization of quiver energy by quantum modified collisions. Following our conclusions ...
Multi-MeV ion production from the interaction of a short laser pulse with a high-density plasma, acc...
Cone-guided fast ignition laser fusion depends critically on details of the interaction of an intens...
Anomalous interaction of picosecond laser pulses of terawatt to petawatt power is due to suppression...
A new type of MeV ion generation at laser-plasma interaction has been measured based on the observat...
The anomaly of ion emission at laser irradiation of targets measured by Badziak et al. was analyzed ...
Measurements of the ion emission from targets irradiated with neodymium glass and iodine lasers were...
The measurements of Badziak et al with very clean - i.e. with a contrast ratio above 10 - TW-ps lase...
The concept of the fast ignitor for laser fusion has led to some modifications in applying petawatt-...
The discovery of the essential difference of maximum ion energy for TW-ps laser plasma interaction c...
It is being clarified why the observations of plane wave geometry interaction within the skin depth ...
Generation of high speed dense plasma blocks is well known from hydrodynamic theory and computations...
It seemed to be an impossible task thirty years ago to shine a laser beam on uncompressed solid DT ...
Measurement of extremely new phenomena during the interaction of laser pulses with terawatt and high...
Investigating new regimes of laser-plasma interactions requires advances in at least two technologie...
Summarization: Ultrahigh acceleration of plasma blocks in the range of 1020 cm/s2 has been confirmed...
Multi-MeV ion production from the interaction of a short laser pulse with a high-density plasma, acc...
Cone-guided fast ignition laser fusion depends critically on details of the interaction of an intens...
Anomalous interaction of picosecond laser pulses of terawatt to petawatt power is due to suppression...
A new type of MeV ion generation at laser-plasma interaction has been measured based on the observat...
The anomaly of ion emission at laser irradiation of targets measured by Badziak et al. was analyzed ...
Measurements of the ion emission from targets irradiated with neodymium glass and iodine lasers were...
The measurements of Badziak et al with very clean - i.e. with a contrast ratio above 10 - TW-ps lase...
The concept of the fast ignitor for laser fusion has led to some modifications in applying petawatt-...
The discovery of the essential difference of maximum ion energy for TW-ps laser plasma interaction c...
It is being clarified why the observations of plane wave geometry interaction within the skin depth ...
Generation of high speed dense plasma blocks is well known from hydrodynamic theory and computations...
It seemed to be an impossible task thirty years ago to shine a laser beam on uncompressed solid DT ...
Measurement of extremely new phenomena during the interaction of laser pulses with terawatt and high...
Investigating new regimes of laser-plasma interactions requires advances in at least two technologie...
Summarization: Ultrahigh acceleration of plasma blocks in the range of 1020 cm/s2 has been confirmed...
Multi-MeV ion production from the interaction of a short laser pulse with a high-density plasma, acc...
Cone-guided fast ignition laser fusion depends critically on details of the interaction of an intens...
Anomalous interaction of picosecond laser pulses of terawatt to petawatt power is due to suppression...