To investigate the chemical composition of primary cosmic rays, several emulsion chambers were exposed at a 10.8 g/sq cm. depth in the stratosphere. Each chamber has the area of 0.92x0.46 sq m. and the depth of 14 c.u. The exposure time of chambers processed by now is 260 hours. The detecting layers were X-ray films and nuclear emulsions, which allowed to measure an energy of cascade and a type of primary particle. Results and techniques are described
An apparatus has been designed and is being fabricated to study the charge composition, fluxes, and ...
Energy spectra for primary cosmic rays C-Fe above 20 GeV/n were measured on a balloon flight from Gr...
Due to the strong decrease of the energetic cosmic ray flux its direct detection at the top of atmos...
We show that the simplest assumptions for the dynamics of particle production allow us to understand...
At present the study of nuclear interactions induced by cosmic rays is the unique source of informat...
We have observed atmospheric gamma rays from 30GeV to 8TeV, using emulsion chambers at balloon altit...
Based on the air shower data, the chemical composition of the primary cosmic rays in the energy rang...
A detailed study of the cores of extensive air showers (EAS) at mountain level (Tien-Shan 690 g/cm2)...
We present a useful clue to estimate the energy and chemical composition of the primary cosmic radia...
Experimental results from Emulsion Chamber (EC) experiments at mountain altitudes or at higher level...
A new method to estimate the mean atomic number of primary cosmic rays in energy range 10 to the 3rd...
In 1982 a hybrid electronic counter-emulsion chamber experiment was flown on a balloon to study heav...
The energy spectra of high energy gamma-rays and hadrons were obtained by the emulsion chamber with ...
The extensive air showers (EAS) cascade curves from the Cerenkov light lateral distribution measurem...
Journal ArticleWe use the depth of maximum distribution as measured by the stereo Fly's Eye detector...
An apparatus has been designed and is being fabricated to study the charge composition, fluxes, and ...
Energy spectra for primary cosmic rays C-Fe above 20 GeV/n were measured on a balloon flight from Gr...
Due to the strong decrease of the energetic cosmic ray flux its direct detection at the top of atmos...
We show that the simplest assumptions for the dynamics of particle production allow us to understand...
At present the study of nuclear interactions induced by cosmic rays is the unique source of informat...
We have observed atmospheric gamma rays from 30GeV to 8TeV, using emulsion chambers at balloon altit...
Based on the air shower data, the chemical composition of the primary cosmic rays in the energy rang...
A detailed study of the cores of extensive air showers (EAS) at mountain level (Tien-Shan 690 g/cm2)...
We present a useful clue to estimate the energy and chemical composition of the primary cosmic radia...
Experimental results from Emulsion Chamber (EC) experiments at mountain altitudes or at higher level...
A new method to estimate the mean atomic number of primary cosmic rays in energy range 10 to the 3rd...
In 1982 a hybrid electronic counter-emulsion chamber experiment was flown on a balloon to study heav...
The energy spectra of high energy gamma-rays and hadrons were obtained by the emulsion chamber with ...
The extensive air showers (EAS) cascade curves from the Cerenkov light lateral distribution measurem...
Journal ArticleWe use the depth of maximum distribution as measured by the stereo Fly's Eye detector...
An apparatus has been designed and is being fabricated to study the charge composition, fluxes, and ...
Energy spectra for primary cosmic rays C-Fe above 20 GeV/n were measured on a balloon flight from Gr...
Due to the strong decrease of the energetic cosmic ray flux its direct detection at the top of atmos...
Add to ORKG