left:
Martin Mráček (boiler operator) Aug. 31, 2007
Mgr. Jitka Špičková (environmental geochemistry) Sept. 31, 2007
Jaroslav Kratochvíl (technical service) Dec. 31, 2007
Jana Macháčková (secretary, technician) Dec. 31, 2007
Ing. Luděk Minařík, CSc. (geochemistry) Dec. 31, 2007
Jarmila Straková (technician) Dec. 31, 2007
RNDr. Zdeněk Vejnar, DrSc. (regional geology) Dec. 31, 2007
RNDr. Ján Veverka, PhD. (geophysics) Dec. 31, 2007
Lenka Kulhavá (librarian) March 31, 2008
Mgr. Kadlecová Eva (Cenozoic vertebrate paleontology) May 12, 2008
RNDr. Zděněk Pros, CSc. (seismic modelling) Dec. 7, 2008
RNDr. Miloš Burian Dec. 31, 2008
Mgr. Jiří Janečka (structural geology, strain modelling) Dec. 31, 2008
joined:
Vlastimil Nemejovský (mechanic, technician) Feb. 1, 2007
Martin Holub (boiler operator) Aug. 1, 2007
Mgr. Kateřina Lechnýřová (librarian) Sept. 1, 2007
Mgr. Jan Borovička (biogeochemistry) Jan. 1, 2008
Mgr. Stanislav Čermák (vertebrate paleontology) Jan. 1, 2008
Mgr. Tomáš Přikryl (vertebrate paleontology) Jan. 1, 2008
Mgr. Jan Wagner (vertebrate paleontology) Jan. 1, 2008
Mgr. Filip Stehlík (paleomagnetism) Feb. 1, 2008
Tereza Nováková (chemical analyst) Sept. 1, 2008
Jakub Bressler (chemical analyst) Oct. 1, 2008
Mgr. Tomáš Svitek (gephysics) Oct. 1, 2008
***
The chapter summarizes the list of the most important laboratory equipment.
Paleomagnetic laboratory (head Ing. Petr Pruner, DrSc.)
The Magnetic Vacuum Control System MAVACS is a self-contained automatic system creating a limited space with the magnetic field eliminated i. e., a non-magnetic environment or magnetic vacuum. The operation of MAVACS is based on the feedback loop principle. The Earth’s magnetic field is compensated for by the triaxial Helmholz Induction Coil System HELICOS. The resulting field difference is continually measured in each of its three axes by the Rotating Coil Magnetometer ROCOMA, which has its sensors installed inside the HELICOS. The output of the ROCOMA controls the Iduction Coil Control Unit ICCON, which supplies the HELICOS generating the compensating magnetic field. In this way the feedback loop is closed in all the three axes, thus securing a variation-free magnetic vacuum. The above mentioned factors formed the basis for the development of a system which creates a magnetic vacuum in a space of about 5 litres below a value of ± 2nT, the typical offset of the magnetic field sensor being smaller than ± 0.1nT. Multi-component analysis of the structure of the remanent magnetization and reproduction of the palaeomagnetic directions even in rocks whose magnitude of secondary magnetization represents 97 to 99 % of the magnitude of natural remanent magnetization, can be achieved accurately with this system.
The JR-6A and two JR-5A Spinner Magnetometers – the most sensitive and accurate instruments for measurement of remanent magnetization of rocks. All functions are microprocessor-controlled.
The KLY-3 Kappabridge, CS-23 and CS-L Furnance Apparatus – sensitive, commercially available laboratory instrument for measuring anisotropy of magnetic susceptibility (AMS) as well as bulk susceptibility and for measuring the temperature variation of susceptibility (from -190 to 700 °C).
Two LDA -3 AF Demagnetizer – the process is microprocessor-controlled and automated.
The magnetizing coil serves for the induction of the isothermal remanent magnetization.
The AMU-1A Anhysteretic Magnetizer is an option to the LDA-3 AF demagnetizer. This equipment permits the deliberate, controlled anhysteretic magnetization of a specimen.
The KLF-4 magnetic susceptibility meter is designed for rapid and precise laboratory measurement of magnetic susceptibility of rocks, soils, and materials investigated in environmental studies in weak magnetic fields ranging in their intensity from 5 A/m to 300 A/m.
755 SRM for Discrete Samples with Automatic Sample Handler and AF Degausser.
Liquid helium-free Superconducting Rock Magnetometer (SRM), type 755 4K SRM: the set includes a measurement system, alternating field demagnetizer, three-layer permalloy degauss shield, automatic sample holder, electronic unit and software. Sensitivity of the dipole moment is lower than 1x10-12 Am2 RMS for aperture size (sample size) of 4.2 cm. A system is including an automatic sample holder, permitting remanent magnetization measurement in three axes. Possibility of remanent magnetization measurement is without sample rotation.
X-ray and DTA/TG laboratory (head RNDr. Roman Skála, PhD.)
PHILIPS X´Pert APD (1997) is an X-ray powder diffractometer used for phase composition and crystal structures investigations. The diffractometer is of theta-2theta type with moving detector arm. It is equipped with fixed divergence and receiving optics, secondary graphite monochromator and a point proportional counter.
DERIVATOGRAPH Q 1500 Monimex (1982, computerized in 1998) is the system for differential thermo-gravimetry.
Electron scanning and microprobe laboratory (head Ing. Anna Langrová)
Microprobe CAMECA 100 (2002) is the central instrument of the Laboratory used mainly for local chemical analysis of solid geological materials. The microprobe is equipped by four crystal spectrometers and detectors for imaging in secondary and back-scattered electrons. The choice of spectrometer crystals makes the instrument capable of analyzing elements in the range from B to U from (thin-) sectioned and polished solid-state samples.
Microprobe JEOL JXA-50A (1972) was a predecessor of the CAMECA 100 instrument. It was used mainly together with EDAX (see below) for fast chemical analysis.
EDAX System PHILIPS (1996) was the energy dispersive system for fast local chemical microanalysis.
Accessory devices for preparation of samples include carbon coating devices and gold sputtering machine and they are crucial to keep the analytical laboratory running smoothly.
Laboratory of rock processing and mineral separation (head Václav Sedláček)
Electromagnetic separator SIM-I (1968)
Electromagnetic separator (1969)
Laboratory table WILFLEY 13 B (1990)
Vibration processor VT 750 (1992)
Crusher CD 160*90 (1991)
Laboratory mill RETSCH (1970)
Crusher ŽELBA D 160/3 (1999)
Mill SIEBTECHNIK (1995)
Laboratory of thin and polished sections (head Ing. Anna Langrová)
MINOSECAR (1962, 1970) is a cut-off machine with a diamond cutting wheel
DISCOPLAN (1990) is a precision cutting and grinding machine.
PEDEMOX PLANOPOL (1989) is a grinding and polishing machine
Montasupal (1977) is a grinding machine with a diamond grinding wheel.
DP.U.4 PDM-Force (1993) is a lapping machine used with deagglomerated grinding powder (alumina) mixed with water before use.
Laboratory of Microscopy (head Mgr. Michal Filippi, PhD.)
Polarization microscope OLYMPUS BX51 with digital camera OLYMPUS DP70 equipped by X-ray fluorescence with wave-length filters; QuickPHOTO MICRO 2.2 software (2006)
Binocular microscope OLYMPUS SZX16 with digital camera OLYMPUS SP 350; software Deep Focus 3.0 (2007)
Binocular microscope OLYMPUS SZ51 (2007)
Microscope NIKON ALPHAHOT 2/HP (1995)
Polarization microscope AMPLIVAL ZEISS (1974)
Polarization microscope POLMI (1967)
Binocular microscope (1959)
Polarization microscope ORTHOPLAN Photometre LEITZ (1983)
Fisson track laboratory (head Mgr. Jiří Filip, CSc.)
Analytical system for fisson track:
– Microscope AXIOPLAN ZEISS and Trackscan system 452110 AUTOSCAN (1999)
– Microscope ZEISS IMAGER M1m and computer-controlled microscope stage AUTOSCAN (2008)
Polishing and grinding machine MTH APX 010 (2003)
Laboratory of liquid and solid samples (heads RNDr. Jan Rohovec, PhD. & RNDr. Miloš Burian)
AAS Spectrometer VARIAN SpectrAA 300 (1991)
lamps As, Be, Cd, Cu, Cr, Fe, Mn, Ni, Co, Pb, Sr, Zn, Rb, Ba+GTA96+VEA76
Analytical weights SARTORIUS Basic analytical (1992)
Filtration blocks B-2A Epi/FL (1996)
Analytical weights BALANCE 2000G (1999)
Decomposition unit PLAZMATRONIKA SERVICE S.C. (1995)
Set of vacuum lysimeters PRENART (1999)
ICP-EOS spectrometer Iris Intrepid XSP (2004)
Ultrasonic Nebulizer CETAC (2004)
Mercury analyser AMA 254
In the course of 2008 a new apparatus for analysis of ultra-low amounts of mercury and mercury speciation was acquired. The apparatus producted by PSAnalytical (England) is working on principle of fluorescence spectroscopy. It is equipped with single-purpose HPLC for various mercury containing species separation. The detection limit is about 0,1 ppt Hg. The apparatus is used for mercury monitoring in the environment. Identification of the mercury species present is considered to be an advanced analytical technique. Speciation analysis is performed after pre-concentration of Hg containing species and followed by separation on HPLC.
Laboratory of rock behaviour under high pressure (head RNDr. Vladimír Rudajev, DrSc.)
MTS 815 – PC controlled servo hydraulic rock testing system with high stiffness for compressive loading up to 4500 kN.
High pressure chamber for elastic anisotropy measurement under hydrostatic pressure up to 700 MPa.
Electronically controlled high pressure generator PG-HY-700-1270 (700MPa)
Hydraulic press for uniaxial compressive loading up to 3000 kN with conventional triaxial cell for confinig pressure up to 150 MPa.
Hydraulic press for uniaxial compressive loading up to 300 kN.
Hydraulic press for uniaxial compressive loading up to 100 kN.
Rheological weight press for uniaxial compressive loading up to 500 kN.
Rheological mechanical presses for uniaxial compressive loading up to 80 kN.
Rheological weight presses for tensile loading up to 3 kN.
Vallen AMSY-5 – multichannel acoustic emission system.
Digital strain meters Hottinger (Centipede-100, UPM-40, UPM-60).
Permeability apparatus for measurement permeable and low permeable materials under constant hydraulic incline.
Equipment for sample preparation (stone saw machines, drilling machines, grinding and milling machines) allows preparation of test samples (specimens) of various shapes (cubic, prismatic, cylindrical, spherical).
10. Financial Report
In thousands of Czech Crowns (CZK)
2007
A. INCOMES
|
|
|
|
|
|
|
|
1.
|
From the annual budget of AS CR
|
|
|
13 205
|
2.
|
From the Grant Agency of the AS CR (accepted research projects)
|
8 390
|
3.
|
From the Grant Agency CR (accepted research projects)
|
|
2 262
|
4.
|
From the internal research projects of the AS CR
|
|
22 042
|
5.
|
From other public sources
|
|
288
|
6.
|
Applied research
|
|
|
|
|
|
2 200
|
7.
|
Investment (instruments)
|
|
|
|
2 129
|
8.
|
Investment (constructions)
|
|
|
|
|
295
|
TOTAL INCOMES
|
50 811
|
|
|
|
|
|
|
|
|
|
B. EXPENSES
|
|
|
|
|
|
|
|
1.
|
Scientific staff (wages, insurances)
|
|
|
|
32 169
|
2.
|
Research and scientific activities
|
|
|
|
|
11 108
|
3.
|
Administration and technical staff (wages, insurances)
|
|
1 014
|
4.
|
General expenses (postage shipping, maintenance of buildings, energies,
|
|
|
transport, office supplies, miscellaneous, etc.)
|
|
|
3 046
|
5.
|
Library
|
|
|
|
|
762
|
6.
|
Editorial activities
|
|
288
|
7.
|
Investment (instruments)
|
|
|
|
2 129
|
8.
|
Investment (constructions)
|
|
|
|
|
295
|
TOTAL EXPENSES
|
50 811
|
2008
A. INCOMES
|
|
|
|
|
|
|
|
1.
|
From the annual budget of AS CR
|
|
|
7 880
|
2.
|
From the Grant Agency of the AS CR (accepted research projects)
|
8 877
|
3.
|
From the Grant Agency CR (accepted research projects)
|
|
2 496
|
4.
|
From the internal research projects of the AS CR
|
|
27 690
|
5.
|
From other public sources
|
|
406
|
6.
|
Applied research
|
|
|
|
|
|
1 341
|
7.
|
Investment (instruments)
|
|
|
|
2 254
|
8.
|
Investment (constructions)
|
|
|
|
|
82 775
|
TOTAL INCOMES
|
133 719
|
|
|
|
|
|
|
|
|
|
B. EXPENSES
|
|
|
|
|
|
|
|
1.
|
Scientific staff (wages, insurances)
|
|
|
|
32 649
|
2.
|
Research and scientific activities
|
|
|
|
|
10 221
|
3.
|
Administration and technical start (wages, insurances)
|
|
3 413
|
4.
|
General expenses (postage shipping, maintenance of buildings, energies,
|
|
|
transport, office supplies, miscellaneous, etc.)
|
|
|
4 060
|
5.
|
Library
|
|
|
|
|
291
|
6.
|
Editorial activities
|
|
120
|
7.
|
Investment (instruments)
|
|
|
|
190
|
8.
|
Investment (constructions)
|
|
|
|
|
82 775
|
TOTAL EXPENSES
|
133 719
|
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