Recent JPL absolute excitation and charge exchange cross sections, and measurements of lifetimes of metastable levels in highly-charged ions (HCIs) are reported. These data provide benchmark comparisons to results of theoretical calculations. Theoretical approaches can then be used to calculate the vast array of data which cannot be measured due to experimental constraints. Applications to the X-ray emission from comets are given
Spectroscopy performed with the three Livermore electron beam ion traps is reviewed, which is contin...
This thesis presents measurements of fundamental properties of singly charged ionic systems includin...
Electron collisional excitation rates and transition probabilities are important for computing elect...
There is increasing emphasis during this decade on understanding energy balance and phenomena observ...
Highly charged ions (HCIs) exist in many hot astrophysical environments where they play an important...
Research activities reported consider the atomic structures of highly stripped heavy ions and their ...
Includes bibliographical references (pages 58-59)X-ray analysis of solar system objects lead to the ...
Modeling the spectra of astrophysical environments requires knowledge of the absolute cross sections...
State selective nl -electron capture cross sections are presented for highly charged ions with Z=6-1...
State selective nl-electron capture cross sections are presented for highly charged ions with Z=6-10...
Charge exchange (CE) plays a fundamental role in the collisions of solar- and stellar-wind ions with...
Charge Exchange (CX) is a process in which a highly charged ion captures one or more electrons from ...
The CTMC method is used to calculate emission cross sections following charge exchange processes inv...
Our research uses the electron beam ion trap (EBIT) at the Lawrence Livermore National Laboratory to...
Emission lines from highly-excited states (n ≥ 5) of H- and He-like ions have been detected in astro...
Spectroscopy performed with the three Livermore electron beam ion traps is reviewed, which is contin...
This thesis presents measurements of fundamental properties of singly charged ionic systems includin...
Electron collisional excitation rates and transition probabilities are important for computing elect...
There is increasing emphasis during this decade on understanding energy balance and phenomena observ...
Highly charged ions (HCIs) exist in many hot astrophysical environments where they play an important...
Research activities reported consider the atomic structures of highly stripped heavy ions and their ...
Includes bibliographical references (pages 58-59)X-ray analysis of solar system objects lead to the ...
Modeling the spectra of astrophysical environments requires knowledge of the absolute cross sections...
State selective nl -electron capture cross sections are presented for highly charged ions with Z=6-1...
State selective nl-electron capture cross sections are presented for highly charged ions with Z=6-10...
Charge exchange (CE) plays a fundamental role in the collisions of solar- and stellar-wind ions with...
Charge Exchange (CX) is a process in which a highly charged ion captures one or more electrons from ...
The CTMC method is used to calculate emission cross sections following charge exchange processes inv...
Our research uses the electron beam ion trap (EBIT) at the Lawrence Livermore National Laboratory to...
Emission lines from highly-excited states (n ≥ 5) of H- and He-like ions have been detected in astro...
Spectroscopy performed with the three Livermore electron beam ion traps is reviewed, which is contin...
This thesis presents measurements of fundamental properties of singly charged ionic systems includin...
Electron collisional excitation rates and transition probabilities are important for computing elect...
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