ABSTRACTS:
[131]
Kletetschka
G.,
McKinney E., Kawasumiová D., Okada M. & Inoue Y. (2011):
Baloon Launched
on Multiwall Carbon Nanotube Tether in Antarctica.
– NT11
International
Conference on the Science and Application of Nanotubes, Cambridge, July
10–16, 2011.NT 11, Satellites
Abstract Book: CT 36
[130]
Kletetschka
G.
(2011):
Heat, magnetic field and wind analysis from the samples that have
experienced
the Tunguska blast in Siberia, Russia. – Miroslav
Krs Conference: Time, , Magnetism, Records, Systems and Solutions. The
2011
Annual IGCP 580 Meeting, October 12–18,
2011.
Abstract
Volume:
33
[129]
Kletetschka, G.
Treated meat should allow several freezings, lessons from tardigrades;
Institute of Animal Science Prague Uhrineves, 60 Years of Tradition and
Innovations, 13th September, 2011, 8th International Workshop, Research
in Pig Breeding, Kostelec nad Orlici, Czech Republic; oral, Key words:
cryopreservation, dehydration, sugar diet, tardigrades, pigs, double
strand brakes of DNA; http://www.respigbreed.cz/,
2011
[128]
Kletetschka, G.; Zila, V.; Huerfano, S.; Suchanova, J.
Preliminary Use of the Insect Parts for the Delivery of the Carbon
Nanotubes into the Mammalian Structures; SENS V, SENS Foundation,
advancing rejuvenation biotechnologies; 31st August - 4th September
2011, Queens' College, Cambridge, UK; Key words: capsids, polyomavirus,
carbon nanotubes, imunotherapy; http://www.sens.org/conferences/sens5;
2011
[127]
Kletetschka, G.; McKinney, E.; Kawasumiova, D.; Okada, M.; Inoue, Y.;
Balloon Launched on Multiwall Carbon Nanotube Tether in Antarctica. NT11 International Conference on
the Science and Application of Nanotubes, University of Cambridge,
Cambridge, Great Britain, 10-16 July, oral, USA; Key words: MWCNT,
fibres, tether, strength, fabrication, Antarctica; http://www.msm.cam.ac.uk/nt11/;
2011
[126]
Mikula, V.; McIntire, L.; Kletetschka, G.;
Influence of gases, salt and sugar trehalose dissolved in water to the
emergence of ice crystals.; Mid Atlantic Bio Conference 2010; October
27-29, 2010; Bethesda, Maryland, USA; Key words: ice crystals,
trehalose, dissolved gases, polarized light; http://midatlanticbio.org/
; 2010
[125]
Fercana, G.; Kletetschka, G.; Chervenak, J.; Mikula, V.; Li, M.;
Investigation into graphene-based MEMS for future deep space
telescopes.; Mid Atlantic Micro/Nano Alliance MAMA 2010, John Hopkins
University, Laurel, 20723, MD, USA; Key words: Graphene, space
telescopes, transparent electrodes, exfoliation;
http://www.midatlanticmana.com/?page_id=86 ; 2010.
[124]
Kletetschka, G.; Horikawa, D.; Mikula, V.; and Chervenak, J.;
Radiation resistance of the tardigrade: Ramazzottius varieoranatus –
pathway to radiation resistant astronaut?; 61st International
Astronautical Congress IAC2010, 27 September – 1 October, 2010; Prague,
Czech Republic; Key words: radiation resistance, Astronaut health,
extreme conditions, cellular damage;
http://www.iafastro.net/iac/paper/id/8776/summary/ ;2010.
[123]
Kletetschka, G.; Horikawa, D.; Mikula, V.; Parsons, A.; Bodnarik, J.;
and Chervenak, J.;
Sub-Kelvin resistance, impact resistance, and neutron dose of the
tardigrade: Ramazzottius varieoranatus; 47th Annual Meeting of the
Society for Cryobiology, CRYO-2010, 17-20 July, 2010; Bristol, UK, Key
words: Cryobiology, impact resistance, radiation resistance,
tardigrades, extremofiles;
http://www.cryo-2010.org/abstracts/pdf/SFC001S036.pdf ;2010.
[122]
Kletetschka, G.;
Large Magnetic Fields that Occurred during the Vredefort Impact,
Implications for Mars Magnetic Anomalies; 12 Castle Meeting on Paleo,
Rock and Environmental Magnetism 2010; (organized by Institute of
Geophysics, Academy of Sciencies of the Czech Republic, Prague, Czech
Republic), August 29 – September 4, 2010; Castle of Nove Hrady, South
Bohemia, Czech Republic; Key Words: Magnetic anomalies, Vredefort
impact, shock, magnetization; Lecture;
http://www.ig.cas.cz/Castle2010/Abstracts/Kletetschka-oral.pdf ; 2010
[121]
Kletetschka, G.; Horikawa, D.; Parsons, A.; Bodnarik, J.; and
Chervenak, J.
Neutron Dose and Sub-Kelvin Resistance of the Tardigrade: Ramazzottius
Varieoranatus; Astrobiology Science Conference 2010; 26-29 March, 2010;
League City, Texas, USA, Key words: tardigrade, shock resistance,
radiation resistance, cryoresistance; Lecture;
http://www.lpi.usra.edu/meetings/abscicon2010/pdf/5474.pdf ; 2010
[120]
Kletetschka, G.; Zila, V.; Wasilewski, P. T.;
Magnetic effects of Allende and Bjurbole chondrules moving from space
to terrestrial environments; 41st Lunar and Planetary Science
Conference; 1-5 March, 2010; Woodlands, Texas, USA; Key words:
Chondrules, Bjurbole, Allende, magnetic record; Poster;
http://www.lpi.usra.edu/meetings/lpsc2010/pdf/1273.pdf ; 2010.
[119]
Kletetschka, G.; Lunsford, A.; Petrochilos, L.; Fuller, M.;
Hall Probe scanner for analysis of magnetization of polished sections;
International Association of Geomagnetism and Aeronomy, 23-30 August,
2009; Sopron, Hungary, Key words: Magnetic microscopes, Magnetic
scanners; Lecture and poster;
http://www.diamond-congress.hu/iaga2009sopron/index.html;
115-WED-O1115-0592; 2009
[118]
K. Kletetschka; G. Kletetschka
Crack avoidance during cryopreservation attempts; Strategies for
Engineered Negligible Senescence; SENS Foundation; 2-7 September,
2009, Cambridge, UK, Key words: cryopreservation, magnetism, eddy
currents, fractures, alternating magnetic field; lecture,
http://www.sens.org/node/604; Rejuvenation Research, S17-S59; 2009
[117]
G. Kletetschka
Magnetic signatures recorded in rocks and trees located inside the
Tunguska blast 100 years ago, implications for Mirror Matter, Comet,
and Kimberlitic Pipe explosion hypotheses. 15-19 December
2008, San Francisco, USA, poster, GP21C-0787
abstract,
2008
[116]
G. Kletetschka
Magnetic Signature of Soils due to Wild Fires. Workshop on Soil Magnetism: Multi-disciplinary
Perspectives, Emerging Applications and New Frontiers, 18-20 August
2008, Cranfield University, United Kingdom, oral, Applications and
challenges, Tue, am, abstract,
2008
[115]
G. Kletetschka, and T. Adachi
Magnetic Detection of Large Magnetic Fields that Occurred During the
Vredefort Impact, Implications for Mars Magnetic Anomalies. Large
Meteorite Impacts and Planetary Evolution IV, 17-21 August 2008,
Vredefort Dome, South Africa, oral, Symposium - Large Impact
Structures, Mon, am, Hippo Room, abstract,
2008
[114]
V. Mikula, G. Kletetschka, and T.
Adachi
A new concept of the speed of light that varies in gravitational
potentials is possible to verify in gravitational potential of the
Sun., Papradno, Slovakia, May
12-16, 2008, Oral, Poster,
2008
[113]
T. Adachi, and G. Kletetschka
A new method of testing the heterogeneity of the impact origin, shatter
cones of newly discovered impact site, Santa Fe, New Mexico, USA. Large Meteorite Impacts and Planetary Evolution
IV, 17-21 August 2008, Vredefort Dome, South Africa, poster, Mon, pm,
Fisheagle Room, abstract,
2008
[112]
G. Kletetschka
Testing of the presence of large electromagnetic pulse during the
Tunguska event for the Mirror Matter hypothesis. National Conference "100 years of Tungus problem,
June 27-29, 2008, Krasnoyarsk, Russia. abstract,
2008
[111]
G. Kletetschka, S. A.
Getty, A. Lunsford, T. Adachi, V. Mikula, and P. Wasilewski
Magnetic Probing of Flat Solid Surfaces, Preparation for Remote Probing
of Extraterrestrial Solid Surfaces, 11th Castle Meeting, paleo, rock and Environmental
Magnetism, Bojnice Castle, Slovak Republic, June 22-28, oral, 9:00,
Monday, June 23, page 56, Contributions
to Geophysics and Geodesy, Special issue,
2008
[110]
T. Adachi and G. Kletetschka
Estimate of the magnetic paleofields during the formation of our solar
system. 2008 International Conference on Rock Magnetism, poster 19, Wednesday, June 4,
(08:30-9:50),
2008
[109]
G. Kletetschka, M. Laurenzi, T.
Adachi
Field dependent decrease of magnetic susceptibility in
superparamagnetic grains. 2008
International Conference on Rock Magnetism, poster
5, Wednesday, June 4, (08:30-9:50),
2008
[108]
T. Adachi, G. Kletetschka, J. Adamovic
Magnetic Characterization of Fe-Oxides concretions from Utah, USA and
Czech Republic as terrestrial analogues of Mars. Japan Geoscience Union, Meeting
2008, JPGU2008.pdf,
oral, E111-006, May 28 10:15-10:30,
Room 301B,
2008
[107]
G. Kletetschka, S. A. Getty, T.
Adachi
First steps towards the remote
detection of radiation resistant life forms. Japan Geoscience Union, Meeting
2008, JPGU2008.pdf,
oral, P222-001, May 30
9:01-9:15, Room 201A,
2008
[106]
G. Kletetschka, A. Lunsford, S. A.
Getty, T. Adachi, V. Mikula, P. Wasilewski
Magnetic probing of extraterrestrial solid surfaces Japan Geoscience Union, Meeting
2008, JPGU2008.pdf,
poster, J239-P009,
Poster Session Hall, May 28,
2008
[105]
S. Getty, G. Kleteteschka, T.
Adachi, V. Mikula, Y. Zheng, D. Franz, J. Eigenbrode, P. Mahaffy, J.
Dworkin
A Nanoelectronic Chemical Sensor for In Situ Liquid Chromatography.
Astrobiology Science Conference 2008,
Santa Clara Convention Center, CA, USA,
poster 2-04-P, April 14-17,
Astrobiology, Vol 8, Number 2, 2008
[104]
R. F. Silverberg, R. G.
Arendt, D. E. Franz, M. D. Jhabvala, G. Kletetschka, A. S. Kutyrev, M.
J. Li, S. H. Moseley, D. A. Rapchun, S. J. Snodgrass, D. W. Sohl, L. M.
Sparr, and the Microshutter Team
A microshutter-based field selector
for JWST’s near infrared spectrograph - art. no 6678/35;
Optics+Photonics; Advanced
Detectors and Technologies; PROCEEDINGS OF THE SOCIETY OF
PHOTO-OPTICAL
INSTRUMENTATION ENGINEERS (SPIE); Volume: 6678 Pages: 66780Q1-66780Q8; oral;
abstract;
2007
Cited in: 2008.
[103]
Kosterov, A., Kohout, T., Jackson, M.,
Kletetschka, G., Lehtinen, M.
Low Temperature Magnetic Properties of Daubreelite, Troilite and
Enstatite Chondrites. Eos
Trans. AGU, 88(52), Fall Meet. Suppl., Abstract, GP24A-06, oral,
2007.
[102]
Kohout, T., Kletetschka, G.
Magnetic Record of Ordinary Chondrite Chondrules. Eos
Trans. AGU, 88(52), Fall Meet. Suppl., Abstract, GP53A-0956, poster,
2007.
[101]
Kletetschka, G., Mikula, V., Adachi, T.,
Fuller, M.
Preliminary non-invasive measurement of magnetic susceptibility of the
frontal lobe: a possible antecedent marker for Alzheimer's disease. Eos
Trans. AGU, 88(52), Fall Meet. Suppl., Abstract, B33C-1440, poster,
2007.
[100]
Adachi,
T., Kletetschka, G., Mikula, V.
Frequency Dependent Susceptibility Analysis of Magnetic Carriers:
Application to Fe-Oxides on Mars surface. Eos
Trans. AGU, 88(52), Fall Meet. Suppl., Abstract, GP21A-0119, poster,
2007.
[99]
Fuller,
M., Zinin, P., Favia, J., Tatsumi, L., Kletetschka, G., Adachi, T.
Magnetic Analysis of Post-mortem Hippocampal Tissue from Alzheimer's
Patients: Changes with Progression of the Disease. Eos
Trans. AGU, 88(52), Fall Meet. Suppl., Abstract, B33C-1426, poster,
2007.
[98]
Robert F. Silverberg, Richard Arendt, David E. Franz, Gunther
Kletetschka, Alexander Kutyrev,
Mary J. Li, S. HarveyMoseley, David A. Rapchun, Stephen Snodgrass,
David W. Sohl and
Leroy Sparr and the Microshutter Team.
A Microshutter-based Field Selector for JWST’s Multi-Object Near
Infrared Spectrograph, Infrared Spaceborne Remote Sensing and
Instrumentation XV, edited by Marija Strojnik-Scholl, Proc. of SPIE Vol. 6678, 66780Q, (2007) ·
0277-786X/07/$18 · doi: 10.1117/12.736118, 2007.
[97]
Kohout, T., Kosterov, A., Jackson, M., Pesonen, J. L., Kletetschka, G.,
Lehtinen, M.
DAUBREELITE AND TROILITE AS A SOURCE OF COMETARY AND MINOR BODY
MAGNETISM IN COLD ENVIRONMENT. 70th Annual Meteoritical Society
Meeting, poster, abstract 5209,
Tuscon, Arizona, August 13-17., 2007
[96]
Mikula Vilem, Kletetschka, Gunther, Adachi Tomoko, Fuller, Mike
Alzheimer Patients can be
Distinguished from other Patients be non In vasive Measurement of
Magnetic Susceptibility of their Frontal Lobe (Preliminary data)
Annual Meeting of the German Genetics Society: Genetics of Aging, Jena,
Germany, Oct 11-13, poster,
2007.
[95]
Mikula Vilem, Li Mary J., Gunther Kletetschka, Tomoko Adachi, and
part of the Microshutters Team: Sachi Babu, Sateesh Bajikar, Michael
Beamesderfer, Ruth Bradley, Nick Costen, Audrey Ewin, David Franz,
Larry Hess, Ron Hu, Kamili M. Jackson, Murzy Jhabvala, Todd King,
Alexander Kutyrev, Timothy Miller, Harvey Moseley Jr., Brent Mott,
Lance Oh, David Rapchun, Chris Ray, Scott Schwinger, Peter Shu, Robert
Silverberg, Wayne Smith, Steve Snodgrass, David Sohl, Leroy Sparr,
Thomas Stevenson, Rosalind Steptoe-Jackson, Liqin Wang, Yun
Zheng, Chris Zincke.
Future Application of JWST
Microshutter Technology for Use in Neural Implants. The Mid
Atlantic MEMS Allience, Special Topics Symposium, Towards In Vivo
Microsystems, October 2, Poster, University of Maryland Biotechnology
Institute Center for Advanced Research in Biotechnology, 2007.
[94]
Adachi, T., Kletetschka, G.
Using oxygen isotope and magnetism
to reconstruct the paleotemperature framework of the ancient travertine
deposits in Death Valley, CA. Goldschmidt Conference - "atoms to planets",
Abstracts, poster, A5, Cologne,
Germany, 2007.
[93]
Kletetschka, G. Adachi, T., Adamovic, J., Mikula, V., Chan, M.
Utah and Czech Mars analog
concretions; Aquatic hematite and goethite characterization.
Goldschmidt Conference - "atoms to planets", Abstracts, oral, A493, Cologne, Germany, 2007.
[92]
Kletetschka, G., Adachi, T., Mikula, V.
ELECTROMAGNETIC SPACECRAFT USED
FOR MAGNETIC NAVIGATION WITHIN ASTEROID BELT, MINING CONCEPTS AND
ASTEROID MAGNETIC CLASSIFICATION. Lunar and Planetary Science
XXXVIII, 1093.pdf, poster, March
12-17,
Houston, 2007.
[91]
Kohout, T., Kletetschka, G. Pesonen, L. J.
IDENTIFICATION OF THE SHOCK EFFECTS IN THE THE AVANHANDAVA H4
CHONDRULES BASED ON THE COERCIVITY SPECTRA OF THE REMANENT
MAGNETIZATION. Lunar and Planetary Science XXXVIII, 1773.pdf, March 12-17,
Houston, 2007.
[90]
Adachi, T., Kletetschka, G., Chan, M., Mikula, V., Adamovic, J.,
Pruner, P., Schnabl, P., and Wasilewski, P.
HIGH FIELD REMAGNETIZATION OF
HEMATITE CONCRETIONS FROM UTAH, USA AND CZECH REPUBLIC. Lunar and
Planetary Science XXXVIII, 1101.pdf,
poster, March 12-17, Houston, 2007.
[89]
Kletetschka,
G., Zboril, R., Adachi, T., Mikula, V., Hermanek, M., Wasilewski, P.
NEW INSIGHT INTO THE ORIGIN OF
ANOMALOUS MAGNETISM OF TITANOHEMATITE LAMELLAE IN RHOMBOHEDRAL OXIDE
ASSEMBLAGES - CONSEQUENCE FOR MARS MAGNETISM. Eos
Trans. AGU, 88(23), Jt. Assem. Suppl., Abstract,
GP33A-07, oral,
2007.
[88]
Adachi,
T., Kletetschka,
G., Wasilewski, P., Mikula, V.
Magnetic Signatures of Impact Fractured
Rocks from Sierra Madera, Texas, USA - Implications to Magnetic
Anomalies on Mars Eos
Trans. AGU, 88(23), Jt. Assem. Suppl., Abstract, P41A-02,
oral,
2007.
[87]
Fuller, M., Halekas, J., Adachi, T., Kletetschka, G., Kohout, T.
Lunar Magnetism: IRMs Normalization and Impact
Related Magnetization. Eos
Trans. AGU, 88(23), Jt. Assem. Suppl., Abstract, P23A-06,
oral, 2007.
[86]
S. A. Getty, L. Delzeit, B. Jamieson, T. T. King, P. A. Roman, P. R.
Mahaffy, G. Kletetschka, P. J. Wasilewski, D. D. Allred.
Carbon nanotube-based electronic devices for spaceflight instruments,
2007 SPIE 6556, Defence and Security
(9-13 April,
2007), Paper No. 6556-38, oral, Session
No. 8,
2007.
[85]
Kletetschka, G., Pruner, P., Wasilewski, P. J., Adachi, T., Mikula, V.
Detection of Chemical Change in Lacustrine Sediments by Non Invasive
Magnetic Method, 2006 Philadelphia Annual Meeting (22-25 October,
2006), Paper No. 76-11, Session No. 76, Geological Society of America,
Abstracts with Programs, Vol. 38, No. 7, p. 200, 2006.
[84]
Kletetschka G, Getty SA, Shields M, Li J, Mikula V, Wasilewski P.
Microbial origin of life on Europa, ORIGINS
OF
LIFE AND EVOLUTION OF THE BIOSPHERE 36 (3): 328-330 JUN 2006
[83]
Kohout, T., Kletetschka, G. Pesonen, L. J.
Shock
history analysis of the space
material based on the coercivity distribution of the remanent
magnetization. International Science Symposium on Sample Returns
from Solar System Minor Bodies, the 2nd Hayabusa Symposium - In-situ
investigation of Itokawa, Sample Analyses Preparation and Spacecraft
Operation -, Tokyo, Japan, July 12-14, abstract,
2006.
[82]
Getty, S. A., Kletetschka, G.
Single-Walled
Carbon Nanotubes for a
Strain-based Magnetometer, The IEEE Nano2006 meeting, Cincinnati,
USA, July 16-20, abstract,
2006.
[81]
Mikula, V., Kletetschka, G., Adachi, T.
Correlation
between Sunspot cycles
and planets Jupiter and Saturn. 18th Solar Seminar in Modra,
Slovakia, May 22-26, abstract,
paper,
2006.
[80]
Adachi, T., Kletetschka, G., Wasilewski, P. J.
Magnetic
record of Bjurbole meteorite.
in: 37th LPSC, #2205,
Houston, TX, 2006.
[79]
Kohout, T., Kletetschka, G., Pesonen, L. J., Wasilewski, P. J.
Magnetic
Studies of Avanhandava H4
and Bjurbole L4 Chondrules.
in: 37th LPSC, #1601,
Houston, TX,
2006.
[77]
Kohout, T., Donadini, F., Kletetschka, G., Pesonen, L.J., Wasilewski,
P.J.
Testing the Nature of Natural Remanent Magnetization Using REM(AF)
Method. In 10th Castle Meeting on New Trends in
Geomagnetism, Travaux Geophysiques XXVII, ISSN 0039-3169,
Geophysical Institute Prague, Academy of Sciences of the Czech
Republic, pages 66-67, 2006.
[76]
Kletetschka, G., Wasilewski, P.J., Adachi, T., Mikula, V.
The Origin of Anomalous Magnetism of
Titanohematite Lamellae in Rhombohedral Oxide Assemblages Inside
Igneous and Metamorphic Rocks. In 10th Castle Meeting on New Trends
in Geomagnetism, Travaux Geophysiques XXVII, ISSN
0039-3169, Geophysical Institute Prague, Academy of Sciences of the
Czech Republic, pages 63-64,
2006.
[75]
Adachi, T., Kletetschka, G., Wasilewski, P., Mikula, V.,
NRM Measurements of Shatter Cones
and Rim Deposits from the Sierra Madera Impact Crater in Texas, USA.
In 10th Castle Meeting on New Trends in Geomagnetism. Travaux
Geophysiques XXVII, ISSN 0039-3169, Geophysical Institute Prague,
Academy of Sciences of the Czech Republic, pages 1-2, 2006.
[74]
Kletetschka, G., Acuna, M. H., Wasilewski, P. J., Mikula, V., Adachi,
T., and Kohout, T.
Remote magnetic classification of asteroids,
Asteroids and Comets Interiors, Santa Cruz, CA, Oct. 5-6, 2006.
[73]
Adachi, T., Kletetschka, G., and Mikula, V.
Laser Induced Fluorescence Detection
of Organic Matters in Comets, Asteroids, and Icy Moons. Asteroids
and Comets Interiors, Santa Cruz, CA, Oct. 5-6, 2006
[72]
Kletetschka, G., Adachi, T.
Magnetic detection of
neurogenerative diseases, 35th Annual Meeting of American Aging
Association, Intervention in Aging and Age-related Diseases: The
Present and the Future, June 2-5, Boston, MA, USA, abstract, 2006.
[71]
Kohout, T., Kletetschka, G., Pesonen, L. J., Wasilewski, P. J.
Testing the origin of the magnetic record
of chondrites. Eos
Trans. AGU, 87(36), Jt. Assem. Suppl., Abstract GP24A-04,
2006.
[70]
Kletetschka, G., Fuller, M. D., Kohout, T., Wasilewski, P. J., Bervera,
E., Ness, N. F., Acuna, M. H.
TRM in Low Magnetic Fields: a minimum
field that can be recorded by large multidomain grains. Eos
Trans. AGU, 87(36), Jt. Assem. Suppl., Abstract GP24A-03,
2006.
[69]
Adachi,
T., Kletetschka, G., and Wasilewski, P. J.
Bjurbole meteorite: An inefficient
recorder of paleofields less than one micro Tesla, Eos Trans. AGU,
87(36), Jt. Assem. Suppl., Abstract GP41A-04,
2006.
[68]
Kletetschka, G., Wasilewski, P.J., Ness, N.F., Adachi, T., Mikula, V.
Detection of the Mars convection
pattern from magnetic anomalies. Japan Geoscience Union, Meeting
2006, E221-033, 2006.
[67]
Adachi, T., Wasilewski, P.J., Kohout, T., Kletetschka, G.
Estimate of the magnetic paleofields
during the formation of our solar system-preliminary report. Japan
Geoscience Union, Meeting 2006, P155-022,
2006.
[66]
Kletetschka, G., Wasilewski, P. J., Zila, V.
Magnetic paleofield estimates for chondrules extracted from Bjurbole
(L4) meteorite. METSOC 2005, 68th Annual Meeting of the Meteoritical
Society, September 12-16, 2005, Gatlinburg, Tennessee, USA, 5150.pdf,
p.A82, 2005.
[65]
T. Kohout1, G. Kletetschka, L. J. Pesonen and P. J. Wasilewski
Determination of meteorite porosity using liquid nitrogen, in: 36th LPSC, #1743,
Houston, TX, 2005.
[64]
J. E. P. Connerney, M. H. Acuna, G. Kleteschka, N. F. Ness, D. L.
Mitchell and R. P. Lin
Tectonic implications of Mars crustal magnetism. in: 36th LPSC, #1401,
Houston, TX, 2005.
[63]
G.
Kletetschka, F. Freund, P. J. Wasilewski, V. Mikula, and T. Kohout
Antipodal magnetic anomalies on the Moon, contributions from impact
induced currents due to positive holes
and flexoelectric phenomina and dynamo, in: 36th LPSC, #1854,
Houston, TX, 2005.
[61]
Kletetschka, G. Acuna, M. H., Connerney, J. P., Wasilewski, P. J., and
Ness, N. F.
Magnetic coercivity and intensity of Mars crust: Dichotomy formation
via unicellular convection mechanism, Eos Trans. AGU, 86(52), Fall
Meet. Suppl. Abstract GP43A-0884, 2005.
[60]
Flanary, B., and Kletetschka, G.
For a Tree Time Can Be slowed Down: Analysis of proliferation capacity
of tree cells. Strategies for Engineered Negligible Senescence: Second
Conference, Queens' College, Cambridge, UK, September 7-11, 2005, Rejuvenation
Research, 8, Supplement 1, 2005.
[59]
Nazarova, K., Kletetschka, G., and Pisarevsky, S.
Magnetic comparison of terrestrial banded iron formations and Martian
layered deposits. IAGA,
10th
Scientific Assembly of the International Association of Geomagnetism
and Aeronomy, Toulouse, France, IAGA2005-A-01344, p. 68, 2005.
[58]
Kletetschka, G., Kohout, T., Connerney, J. P., Acuna, M. H.,
Wasilewski,
P.J., and Ness, N. F.
Role of shape anisotropy and grain size dependence of magnetic minerals
in TRM/SIRM acquisition; relation to magnetic anomalies on Mars. IAGA,
10th
Scientific Assembly of the International Association of Geomagnetism
and Aeronomy, Toulouse, France, IAGA2005-A-00935, p. 68, 2005.
[57]
Kletetschka, G., Kohout, T., Wasilewski,
P.J., and Fuller, M.
Recognition of thermal remanent magnetization in
rocks and meteorites.
IAGA, 10th Scientific Assembly of the International Association of
Geomagnetism and Aeronomy, Toulouse, France, IAGA2005-A-00945, p. 53, 2005.
Cited: 2007, 2007, 2005.
[56]
Kletetschka, G., Getty, S.A., Shields, M., Mikula, V. and Wasilewski,
P.J.
Microbial origin of life on Europa. In: C.N. Yang (Editor), The 14th
International Conference on the Origin of Life. Tsinghua University,
Beijing, China, pp. 173-174. 2005.
[55]
Samuel H. Moseley, Richard G. Arendt, Rene A.
Boucarut, Murzy Jhabvala,
Todd King, Gunther Kletetschka, Alexander S. Kutyrev, Mary Li, Stephen
E. Meyer, David Rapchun, Robert F. Silverberg
Microshutters
arrays for the JWST near-infrared spectrometer Proc.
SPIE Vol. 5487, p. 645-652, Optical,
Infrared, and Millimeter Space Telescopes; John C. Mather; Ed.,
SPIE conference "Astronomical Telescopes and Instrumentation
2004: Space Telescopes and Astronomy" Glasgow, Scotland 2004
Cited in: 2008, 2007, 2007,
2005.
[54]
T.T. King, G. Kletetschka, M.A.
Jah, M.J. Li, M.D.
Jhabvala, L.L. Wang, M. A. Beamesderfer, A. S.Kutyrev, R.F. Silverberg,
D. Rapchun,
D.S. Schwinger, G.M. Voellmer, S.H. Moseley and L.M. Sparr,
Cryogenic
Characterization and Testing of Magnetically-Actuated Microshutter
Arrays for the James Webb Space Telescope, in: Solid-State Sensor,
Actuator and Microsystems Workshop, June 6-10, B. Sulouff, ed., pp.
8-12,
Transducers Research Foundation, Inc.,
Hilton Head, SC, USA, 2004.
[53]
Kohout, T., A. Cheron, F. Donadini, G. Kletetschka, and L. Pesonen,
The
possible scenarios of the Neuschwanstein meteorite history based on
physical properties, Eos, transactions, American Geophysical Union,
(fall supplement (abstract)), 85(47), P33A-0999,
2004-.
Cited: 2007.
[52]
Kontny, A., and G. Kletetschka,
Magnetic Mineralogy in Oxidized
Lava Flows, Eos, transactions, American Geophysical Union, (fall
supplement (abstract)), 85(47), GP23A-0167,
2004-.
[451]
Kletetschka, G., J. P. Wasilewski, T. Kohout, E. Herrero-Bervera,
and M. D. Fuller,
Detecting ultra-low magnetic fields with common
magnetic minerals, EoS, transactions, American Geophysical Union, (fall
supplement (abstract)), 85(47), GP11C-0846,
2004-.
[50]
Kletetschka,
G.,
Interactions during the TRM
acquisition of SD hematite, Contributions to Geophysics and Geodesy,
34, 77-78, 2004-.
[49]
Kohout, T., G. Kletetschka, M. Kobr, P. Pruner,
and P. J.
Wasilewski,
Magnetic Properties of Chondritic Meteorites and the Terrestrial
Weathering,
EGU 1st General Assembly, 2004-
[48]
Kletetschka, G., M. H. Acuna, T. Kohout, P. Wasilewski, and J.
Connerney,
An Empirical Scaling Law for Acquisition of Thermoremanent
Magnetization, EGU 1st General Assembly, 2004-.
[47]
Kletetschka, G., Connerney, J. E. P., Just, J., Ness, N. F., and
Acuna, M. H.
Shock effects on Martian crustal magnetization near large
impact
basins. EOS, transactions, American Geophysical Union, (fall supplement
(abstract)), 2003.
[46]
Kohout, T., Donadini, F., Kletetschka, G., Kobr, M., Pesonen, L.
J., Pruner, P., and Wasilewski, P. J.
Evidence for Terrestrial Magnetic
Contamination of the Chondrite Meteorites. EOS, transactions, American
Geophysical
Union, (fall supplement (abstract)), 2003.
[45]
Wasilewski, P., G. Kletetschka, C. Tucker, and T. Killeen,
Iturralde: A possible impact structure at the edge of the Amazon in
northern Bolivia, in IUGG Scientific Program, vol. abstract, Japan,
2003.
Cited in: 2007.
[44]
Kohout, T., G. Kletetschka, M. Kobr, P. Pruner, and P. J.
Wasilewski,
The Influence of Terrestrial Environment on Meteorite
Magnetic Records, EGS-AGU-EUG Joint Assembly, EAE03-A-07743, 2003a.
[43]
Kletetschka, G., T. Kohout, and P. J. Wasilewski,
TRM/SIRM of
magnetic minerals, EGS-AGU-EUG Joint Assembly, EAE03-A-06085, 2003-.
[42]
Kletetschka, G., and P. J. Wasilewski,
Magnetic interaction
and cooling rate, EGS-AGU-EUG Joint Assembly, EAE03-A13181, 2003-.
[41]
Kohout, T., G. Kletetschka, M. Kobr, P. Pruner, and P.J.
Wasilewski,
Magnetomineralogy as a tool for determination of the
meteorite weathering, EOS, transactions, American Geophysical Union,
(spring supplement (abstract)), 2002-.
[40]
Kohout, T., G. Kletetschka, M. Kobr, P. Pruner, and P.J.
Wasilewski,
Magnetomineralogy and magnetic properties of Murchison
meteorite - from remagnetized fusion crust to the primary magnetic
record of the meteorite interior, in 9th ESF Impact workshop "Impacts:
a Geological and Astronomical Perspective", edited by P. Jakes, pp. 39,
Prague, 2002-.
[39]
G. Kletetschka, and P. J. Wasilewski,
Low-level shock in
magnetite, titanohematite and hematite, EOS, transactions, American
Geophysical Union, (supplement (abstract)), 2002 .
Cited in: 2005, 2004
.
[38]
G. Kletetschka, J. E. P. Connerney, P. J. Wasilewski and M. Acuna,
Shock demagnetization of Martian crust, EOS, transactions, American
Geophysical Union, 83(19), Spring Meet. supplement abstract P32A-04,
2002,
Cited in: 2007, 2005,
2003 .
[37]
G. Kletetschka, J. A. Speer, and P. J. Wasilewski,
Magnetic
anomalies along the contact between sedimentary and igneous rocks:,
EOS, transactions, American Geophysical Union, (supplement (abstract)),
2002
[36]
G. Kletetschka, and P. J. Wasilewski,
Paleofield of early space,
maximum estimates, EOS, transactions, American Geophysical Union,
(supplement (abstract)), 2001.
[35]
T. Kohout, G. Kletetschka, and P. J. Wasilewski,
Influence of
Terrestrial Weathering on the Magnetic Record of a LL Chondrite, EOS,
transactions, American Geophysical Union, (supplement (abstract)),
2001.
[34]
G. Kletetschka, P.J. Wasilewski, A. Ocampo and
K. Pope,
Magnetic properties of the ejecta blanket from the Chicxulub
impact crater: Analog for robotic exploration of similar deposits on
Mars, EOS, transactions, American Geophysical Union, (supplement
(abstract)), 2001-.
Cited In: 2006, 2003
[33]
G. Kletetschka, P.J. Wasilewski, M.H. Acuna and T.L.
Dickinson,
Why is EROS, "non-magnetic"?, EOS, transactions, American
Geophysical
Union, (supplement (abstract)), 2001-.
[32]
M.H. Acuna, P.J. Wasilewski, G. Kletetschka, B.J. Anderson
and C.T. Russell,
The Magnetization of 433 Eros as Measured from its
Surface, EOS, transactions, American Geophysical Union, (supplement
(abstract)), 2001-.
[31]
J. Connerney, M.H. Acuna, P.J. Wasilewski, G. Kletetschka,
N. Ness, H. Reme, B. Lin and D. Mitchell,
The Global Magnetic Field of
Mars and Implications for Crustal Evolution, EOS, transactions,
American
Geophysical Union, (supplement (abstract)), 2001-.
[30]
G. Kletetschka, P.J. Wasilewski and M. Berdichevsky,
Magnetic
effects on Bjurbole (L4) chondrules moving from the space to
terrestrial environments, in: 32nd LPSC, pp. #1958,
Houston, TX, 2001e.
Cited in: 2005,
2004,
2003
,
2002 .
[29]
G. Kletetschka, P.J. Wasilewski, A.H. Barosio and P.T.
Taylor,
Origin of magnetic linear pattern on Mars, in: 31st LPSC, pp. #, 1348,
2000e.
[28]
G. Kletetschka, P.T. Taylor and P.J. Wasilewski,
Magnetism of
Carbonados, in:
31st LPSC, pp. #
1450,
2000.
[27]
J.E.P. Connerney, M.H. Acuna, P.J. Wasilewski, G.
Kletetschka, N.F. Ness and H. Reme,
Mars crustal magnetism: models,
minerals, mysteries, XXV EGS, 2000-.
[26]
G. Kletetschka,
Intense remanence of hematite-ilmenite solid
solution, Geologica Carpathica 51(3), 187-187,
2000-.
Cited In: 2006.
[25]
G. Kletetschka and P.J. Wasilewski,
Remanent magnetism of
rocks containing hematite - ilmenite solid solution, EOS, transactions,
American Geophysical Union, (supplement (abstract)), 2000-.
Cited In: 2006.
[24]
G. Kletetschka,
Grain
size limit for SD hematite , EOS Transactions,
American Geophysical Union, (Supplement (abstract)), 2000-.
[23]
G. Kletetschka and P.J. Wasilewski,
Remanent
Magnetism Record in a Recent Basaltic Tree Mold , EOS
Transactions, American Geophysical Union, (Fall Supplement (abstract)),
2000-.
[22]
P.J. Wasilewski, G. Kletetschka and M. Acuna,
Magnetic
Properties of Large Meteorites: Analogy to Asteroid Signatures
, EOS Transactions, American Geophysical Union, (Fall Supplement
(abstract)), 2000-.
[21]
S. Ibsen, G. Kletetschka and P. Wasilewski,
New
method for presentation of the vector magnetic data from layered
sequences , EOS Transactions, American Geophysical Union, (Fall
Supplement (abstract)), 2000-.
[20]
G. Kletetschka and P.J. Wasilewski,
Evidence
for electric discharge in carbonaceous meteorites ,
Chemical Evolution - abstract, 2000-.
[19]
J.A. NuthIII, H.G.M. Hill and G. Kletetschka,
The
Formation Age of Comets: Predicted Physical and Chemical trends,
Chemical Evolution - abstract, 2000-.
[18]
P. Pruner, G. Kletetschka and P. Wasilewski,
Magnetic
record associated with tree ring density: possible climate
proxies , EOS Transactions, American Geophysical Union, (Fall
Supplement (abstract)), 2000-.
[17]
V. Zila, G. Kletetschka and P. Wasilewski,
Magnetic
Contamination of Soil and Flora Proximate to a Busy Highway
, EOS Transactions, American Geophysical Union, (Fall Supplement
(abstract)), 2000-.
[16]
P.J. Wasilewski and G. Kletetschka,
Nanoscale Exchange
Anisotropy in Basaltic Rocks, XXV EGS abstract, 2000-.
[15]
Acuña, M.H., Connerney, J.E.P.,Wasilewski, P., Kletetschka, G.,
Ness, N.F., Rème, H., Lin, R., and Mitchell, D.:
Mars Crustal Magnetism – Global Distribution, Morphology and Source
Models’, Am. Astron. Soc., DPS meeting, abstract #31, #59.07, 1999-
[14]
G. Kletetschka, P.T. Taylor and P.J. Wasilewski,
Hematite as
a major source of magnetic anomalies, EOS, transactions, American
Geophysical Union, (supplement (abstract)), 1999-.
[13]
P.T. Taylor, G. Kletetschka and P.J. Wasilewski,
Magnetic
and surface investigation of carbonados, EOS, transactions, American
Geophysical Union, (supplement (abstract)), 1999-.
[12]
M.H. Acuña, J.E.P. Connerney, P.J. Wasilewski, G.
Kletetschka and N.F. Ness,
Models, Laboratory Measurements and
Numerical
Simulations of Selected Martian Crustal Sources, EOS, transactions,
American
Geophysical Union, (supplement (abstract)) 80(46), 607, 1999-.
[11]
M. Krs, P. Pruner and G. Kletetschka,
Consequences of
Paleotectonic Rotations for Interpretation of Paleomagnetic Data, EOS,
transactions,
American Geophysical Union, (supplement (abstract)) 80(46), 299, 1999-.
[10]
G. Kletetschka, P.J. Wasilewski and P.T. Taylor,
Sources
of Magnetic Anomalies on Mars, EOS, transactions, American Geophysical
Union, (supplement (abstract)) 80(46), 617, 1999-.
[9]
G. Kletetschka and J.H. Stout,
Paleomagnetic evidence for
oblique convergence in the Grenville, (abstract), in: New trends in
geomagnetism paleo, rock and environmental magnetism; 6th biennial
castle meeting, E. Petrovsky, I. Tunyi and O. Orlicky, eds. 49, pp.
198, Slovak Academic Press Ltd, Geologica Carpathica, Hruba Skala,
Czech Republic, 1998-.
[8]
G. Kletetschka and J.L.B. Anderson,
The impact of the solar
wind on the geomagnetic field, EOS Transactions, American Geophysical
Union (Supplement (abstract)), 1997-.
[7]
G. Kletetschka and J.H. Stout,
Depth distribution of crustal
aeromagnetic and gravity anomalies, Annales Geophysicae 15 (Supplement
(abstract)), 1997-.
[6]
G. Kletetschka and J.H. Stout,
Petrogenetic grids on a
sphere, EOS, transactions, American Geophysical Union, (Supplement
(abstract)),
1997-.
[5]
G. Kletetschka and J.H. Stout,
The origin of magnetic
remanence on lower crustal granulites, Labrador, EOS Transactions,
American Geophysical Union, (Supplement (abstract)), 1997-.
[4]
G. Kletetschka and J. Stout,
Mössbauer analysis as a
tool for deciphering the conditions of metamorphism, (abstract), in:
Proceedings of the international conference on Thermal and mechanical
interactions
in deep-seated rocks, anonymous, ed., Journal of Czech Geological
Society
40, pp. 23, Ceska Geologicka Spolecnost pri AV CR, Prague, Czech
Republic,
1995-.
Cited at: 2000
.
[3]
G. Kletetschka and S.K. Banerjee,
Are Natural Fires the
Paleoclimatic Variable Recorded in the Magnetic Signal of Chinese
Loess?, in: New trends of geomagnetism and paleomagnetism, Czech
academy of science, Trest, 1994-.
[2]
G. Kletetschka, B.M. Moskowitz, C.P. Hunt and S.K. Banerjee,
Fourier analyses of thermal demagnetization of low-temperature SIRM:
Method for estimating the amount of ultrafine grained magnetite in
soils, EOS Transactions, American Geophysical Union, (Supplement
(abstract)) 74, 114, 1993-.
Cited at
1995
, 1993
.
[1]
G. Kletetschka,
Statistical treatment of geomagnetic
reversals, abstract, New trends of geomagnetism and paleomagnetism,
1990-.
