Add to ORKGExperiments were carried out on tracks of high energy U ions in olivine, a common meteoritic mineral. The results offer an explanation for the lack of success of previous attempts to derive the Ultraheavy Cosmic Ray composition from the study of tracks in meteorites. They also suggest how such experiments should be performed. The methods tested are described and illustrated
A wealth of information regarding cosmic ray synthesis and propagation is contained in the ultra‐hea...
The cosmic-ray records of meteorites are used to infer much about their origins and recent histories...
Artificial meteor ablation was performed on a Mg-rich olivine sample using an arc-heated plasma of i...
A one-step, three-component aqueous etchant was developed for revealing the tracks of charged partic...
The importance of Lead and Uranium group abundances in cosmic rays is discussed in understanding the...
The main goal of the present work is the search for and identification of relatively stable nuclei o...
Investigations of recordable lengths (maximum etchable lengths) of fossil tracks in meteorites and i...
When heavy ions with energies in the range of hundreds of MeV to GeV penetrate a solid, they lose th...
New approaches for investigation of relatively stable nuclei of super heavy element (SHE) (Z > 110) ...
The aim of the OLIMPIYA experiment is to search for and identify traces of heavy and superheavy nucl...
An attempt is made to relate the appearance of an etched tract to the atomic number and velocity of ...
Cosmic radiation investigation by nuclear particle tracks in meteorites and tektite
Radiation effects of accelerated heavy ions in minerals characteristic of meteorite
Interaction between high energetic particles and matter typically leads to structural damage of...
Recent results on cosmic ray interactions in lunar samples and meteorites resulting in productio...
A wealth of information regarding cosmic ray synthesis and propagation is contained in the ultra‐hea...
The cosmic-ray records of meteorites are used to infer much about their origins and recent histories...
Artificial meteor ablation was performed on a Mg-rich olivine sample using an arc-heated plasma of i...
A one-step, three-component aqueous etchant was developed for revealing the tracks of charged partic...
The importance of Lead and Uranium group abundances in cosmic rays is discussed in understanding the...
The main goal of the present work is the search for and identification of relatively stable nuclei o...
Investigations of recordable lengths (maximum etchable lengths) of fossil tracks in meteorites and i...
When heavy ions with energies in the range of hundreds of MeV to GeV penetrate a solid, they lose th...
New approaches for investigation of relatively stable nuclei of super heavy element (SHE) (Z > 110) ...
The aim of the OLIMPIYA experiment is to search for and identify traces of heavy and superheavy nucl...
An attempt is made to relate the appearance of an etched tract to the atomic number and velocity of ...
Cosmic radiation investigation by nuclear particle tracks in meteorites and tektite
Radiation effects of accelerated heavy ions in minerals characteristic of meteorite
Interaction between high energetic particles and matter typically leads to structural damage of...
Recent results on cosmic ray interactions in lunar samples and meteorites resulting in productio...
A wealth of information regarding cosmic ray synthesis and propagation is contained in the ultra‐hea...
The cosmic-ray records of meteorites are used to infer much about their origins and recent histories...
Artificial meteor ablation was performed on a Mg-rich olivine sample using an arc-heated plasma of i...