Add to ORKGA Monte Carlo code, known as AASI, is developed for simulating energy spectra in alpha spectrometry. The code documented here is a comprehensive package where all the major processes affecting the spectrum are included. A unique feature of the code is its ability to take into account coincidences between the particles emitted from the source. Simulations and measurements highlight the importance of coincidences in high-resolution alpha spectrometry. To show the validity of the simulated results, comparisons with measurements and other simulation codes are presented
Alpha emitters are usually identified and quantified by alpha spectrometry measurements in a vacuum ...
During the last decade the IAEA has organized several intercomparison exercises with the task of com...
The Alpha Magnetic Spectrometer (AMS) is a large acceptance, superconducting magnetic spectrometer d...
An alpha spectrometer including a semi-conductor detector is commonly used for measurements of the e...
A computer code has been developed to simulate the gamma-ray spectra that would be measured by airbo...
The laser isotopic separation process is based on the selective photoionization principle and, becau...
ABSTRACT. This paper is devoted to the problem of radionuclide identification in multilabel samples ...
Spherical particles with known properties were used to demonstrate and test a novel software package...
The ability to detect airborne alpha particles in real time could greatly enhance the safety of work...
Alpha spectroscopy is used to characterize and measure alpha particles emitted in the decay of certa...
Spherical particles with known properties were used to demonstrate and test a novel software package...
A new electronic radon/thoron monitor employing semiconductor detectors based on a passive diffusion...
Alpha energy spectrum measurement has been employed in the nuclear waste disposal of transuranic nuc...
This paper describes the application of alpha-particle counting at a defined low solid angle and of ...
Peak overlap is a recurrent issue ina lpha-particle spectrometry, not only in routine analyses but a...
Alpha emitters are usually identified and quantified by alpha spectrometry measurements in a vacuum ...
During the last decade the IAEA has organized several intercomparison exercises with the task of com...
The Alpha Magnetic Spectrometer (AMS) is a large acceptance, superconducting magnetic spectrometer d...
An alpha spectrometer including a semi-conductor detector is commonly used for measurements of the e...
A computer code has been developed to simulate the gamma-ray spectra that would be measured by airbo...
The laser isotopic separation process is based on the selective photoionization principle and, becau...
ABSTRACT. This paper is devoted to the problem of radionuclide identification in multilabel samples ...
Spherical particles with known properties were used to demonstrate and test a novel software package...
The ability to detect airborne alpha particles in real time could greatly enhance the safety of work...
Alpha spectroscopy is used to characterize and measure alpha particles emitted in the decay of certa...
Spherical particles with known properties were used to demonstrate and test a novel software package...
A new electronic radon/thoron monitor employing semiconductor detectors based on a passive diffusion...
Alpha energy spectrum measurement has been employed in the nuclear waste disposal of transuranic nuc...
This paper describes the application of alpha-particle counting at a defined low solid angle and of ...
Peak overlap is a recurrent issue ina lpha-particle spectrometry, not only in routine analyses but a...
Alpha emitters are usually identified and quantified by alpha spectrometry measurements in a vacuum ...
During the last decade the IAEA has organized several intercomparison exercises with the task of com...
The Alpha Magnetic Spectrometer (AMS) is a large acceptance, superconducting magnetic spectrometer d...