Institution:
CTU & ChU
(Czech Technical University in Prague&Charles
University Prague)
Contact person:
prof. Bruno Sopko, CTU
Our collaboration (under one contact person) will
be organised in three groups:
CTU 1:
Bruno Sopko
Dominik Chren
Tomas Horazdovsky
Zdenek Kohout
Michael Solar
(with a capacity of 1.5 manpower in
total)
CTU 2:
Stanislav Pospisil (10%)
Vladimir Linhart
(40%)
Josef Uher - diploma student (50%)
(with a capacity of one manpower in
total)
ChU:
Zdenek Dolezal
Ivan Wilhelm
Jan Broz
Alexej Tsvetkov
Peter Kodys
(with a capacity of 1.5 manpower in
total)
CTU1
Field of interest:
- construction and technology of radition hard
detectors
on Si and A3B5, A2B6
semiconductors
- optimisation of detector
construction
- choice and treatment of proper
substrates
- collaboration on defect modelling
Current activities:
- technology and design of detectors
- measurement of basic technological and functional
parameters
Available resources
Technological possibility for make a sample of test
structures and devices on various substrates
- parametric testing (pin probe)
- analyzing of structure defects
CTU2
Field of interest:
- we would like to proceed in our program of
advanced spectroscopic studies of detector structures and, optionally, of
effects
of radiation on IC.
Available resources
we have available in Prague:
- two alpha spectroscopic systems;
- one system for time-to-amplitude coincidence
measurements
(two-dimensional coincidence triggered by beta,
gamma or
laser radiation with a signal generated in the
studied structure
by beta, alpha or laser radiation,
respectively);
- fast digital scope
ChU
Field of interest:
- we would like to proceed in our program of
spectroscopic studies of
detector structures using low energy proton beams
and, of effects of
neutron radiation on IC.
Available resources
we have available in Prague:
- Van de Graaff accelerator with beamlines, vacuum
chambers,
etc., which can be used
as a source of low energy protons with energies
from 300 keV to
2000 keV and as a source of fast neutrons (in the
range from
hundreds keV to 14 MeV). For 14 MeV neutrons a
technique of
"associated particles" can be used to generate so
called "tagged"
neutron beam".
- charged particle spectroscopic systems
- fast neutron detection and spectroscopy
techniques based on
time-of-flight measurement and CAMAC
multiparametric system
- 20 m**2 clean room area (class 10,000)
Prague, 12.12.2001
Best regards
Michael Solar