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Insight into the chemistry of TNT during shock compression through ultrafast absorption spectroscopies

Michael Powell, David S. Moore, Shawn McGrane

2021The Journal of Chemical Physics12 citationsDOIOpen Access PDF

Abstract

Thin films of trinitrotoluene (TNT) were shock compressed using the ultrafast laser shock apparatus at Los Alamos National Laboratory. Visible (VIS) and mid-infrared (MIR) transient absorption spectroscopies were simultaneously performed to probe for electronic and vibrational changes during shock compression of TNT. Three shock pressures (16 GPa, 33 GPa, and 45 GPa) were selected to observe no reaction, incipient reaction, and strongly developed reactions for TNT within the experimental time scale of <250 ps. Negligible absorption changes in MIR or VIS absorptions were observed at 16 GPa. At 33 GPa, MIR absorptions in the 3000 cm−1–4000 cm−1 range were observed to increase during the shock and continue to increase during the rarefaction, in contrast to the VIS absorption measurements, which increased during the shock and almost fully recovered during rarefaction. At 45 GPa, both VIS and MIR absorptions were strong and irreversible. The intense and spectrally broad MIR absorptions were attributed to short lived intermediates with strong, spectrally broad absorptions that dominate the spectral response. The MIR and VIS absorption changes observed at 33 GPa and 45 GPa were credited to shock induced chemistry, most likely including the formation of a very broad hydrogenic stretch feature. The results from these experiments are consistent with the chemical mechanisms that include O–H or N–H formation such as CH3 oxidation or C–N homolysis.

Topics & Concepts

Absorption (acoustics)Absorption spectroscopyShock (circulatory)ChemistryAnalytical Chemistry (journal)PhotochemistryUltrafast laser spectroscopyShock waveMaterials scienceLaserThermodynamicsOpticsPhysicsOrganic chemistryMedicineComposite materialInternal medicineEnergetic Materials and CombustionAtomic and Molecular PhysicsMass Spectrometry Techniques and Applications
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