EKSPLOZIVI
TNT RDX HMX
Veliko število molekul eksplozivnih snovi vsebuje
dušik. Kvadrupolne resonančne frekvence 14N uporabljamo za karakterizacijo
teh snovi pa tudi za njihovo iskanje.
Objavljena
dela:
1. J. Seliger, V. Žagar, R. Blinc, 14N NQR study of the
structural phase transitions
in NH4NO3,
Z. Phys. B - Condensed Matter 77, 439-443 (1989)
2. R. Blinc, J.
Seliger, D. Arčon, P. Cevc, V. Žagar, 1H-14N double resonance of
TNT from a land mine, Phys. Stat. Solidi
(a) 180, 541-545 (2000)
3. R. Blinc, T. Apih,
and J. Seliger, Nuclear quadrupole double
resonance
techniques for the detection of explosives and
drugs, Applied Magnetic
Resonance 25, 523 (2004)
4. J. Seliger, V. Žagar, R. Blinc, F. Milia, Temperature dependence of 17O and
14N NQR frequencies in commercial TNT, Applied Magnetic Resonance 29,
541-548 (2005)
5. J. Lužnik, J. Pirnat, V. Jazbinšek, T. Apih, A. Gregorovič, R. Blinc, J. Seliger,
Z. Trontelj,
Polarization enhanced ”single shot” 14N
nuclear quadrupole
resonance
detection of trinitrotoluene at room temperature, Appl. Phys. Lett.
89, 123509 (2006)
6. J. Lužnik, J. Pirnat, V. Jazbinšek, T. Apih, R. Blinc, J. Seliger, Z. Trontelj,
Improved 14N nuclear quadrupole resonance detection of trinitrotoluene using
polarization
transfer from protons to 14N nuclei, J. Appl. Phys. 102, 084903
(2007)
7. J. Seliger, V. Žagar, Double resonance detection of (mainly nitrogen) NQR
frequencies in explosives and
drugs, Poglavje v knjigi “Explosives detection
using magnetic and nuclear
resonance techniques”, Eds.:J. Fraissard,
O. Lapina, Springer (NATO
science for peace and security series), 2009,
p. 139-158
5. J. Lužnik, J. Pirnat, V. Jazbinšek, Z. Trontelj, T. Apih, A. Gregorovič, R. Blinc,
J. Seliger, Polarization
enhanced NQR detection at low frequencies, Poglavje
v
knjigi “Explosives detection using magnetic and nuclear resonance
techniques”, Eds.:J. Fraissard, O. Lapina,
Springer (NATO science for peace
and security series), 2009, p. 41-56