The 248 nm photolysis of NO2 results in an inverted vibrational distribution in NO(v) which agrees well with previous REMPI measurements. It was shown that the quenching of the higher levels in collisions with NO2 have clear importance of resonance energy transfer to the NO2(0,0,1) level. Emission from NO2 was found, produced from the photolysis of N2O4, and its spectral signature was similar to that resulting from electronic excitation of NO2
This thesis has applied the time-resolved FTIR emission technique to the study of a number of gas ph...
A study of the photodissociation dynamics of NO2 in the 200–205 nm region using resonance enhanced ...
Velocity-map ion imaging has been applied to the photodissociation of NO(2) via the first absorption...
Time resolved Fourier transform infrared emission has been used to study the photolysis of NO2 and i...
The nascent distribution of the vibrationally excited NO product of NO2 photolysis at 308 nm has bee...
Time resolved infrared emission from the fundamental and first overtone transitions of NO(v = 1-14),...
Rates of vibrational quenching of NO (v = 1-16) in collisions with O2 have been measured at 295 K. N...
Collisional quenching of NO A 2Σ+ (v = 0) by N2O and CO2 has been studied through measurements of vi...
Collisional quenching of NO A 2 S+ (v = 0) by N2O and CO2 has been studied through measurements of v...
Contains fulltext : 35566.pdf (publisher's version ) (Closed access)A study of the...
Measurements are reported of the vibrational quenching of NO(v = 1-3) by NO2 and O2, and of NO2(0,0,...
Infrared emission from the low-pressure gas-phase NO — О reaction system has been studied from 1 to ...
Infrared emission from the low-pressure gas-phase NO — О reaction system has been studied from 1 to ...
This thesis presents the study of a selection of gas phase chemical processes using time-resolved Fo...
A previously reported microwave-optical double resonance observed in the fluorescence of NO2 excited...
This thesis has applied the time-resolved FTIR emission technique to the study of a number of gas ph...
A study of the photodissociation dynamics of NO2 in the 200–205 nm region using resonance enhanced ...
Velocity-map ion imaging has been applied to the photodissociation of NO(2) via the first absorption...
Time resolved Fourier transform infrared emission has been used to study the photolysis of NO2 and i...
The nascent distribution of the vibrationally excited NO product of NO2 photolysis at 308 nm has bee...
Time resolved infrared emission from the fundamental and first overtone transitions of NO(v = 1-14),...
Rates of vibrational quenching of NO (v = 1-16) in collisions with O2 have been measured at 295 K. N...
Collisional quenching of NO A 2Σ+ (v = 0) by N2O and CO2 has been studied through measurements of vi...
Collisional quenching of NO A 2 S+ (v = 0) by N2O and CO2 has been studied through measurements of v...
Contains fulltext : 35566.pdf (publisher's version ) (Closed access)A study of the...
Measurements are reported of the vibrational quenching of NO(v = 1-3) by NO2 and O2, and of NO2(0,0,...
Infrared emission from the low-pressure gas-phase NO — О reaction system has been studied from 1 to ...
Infrared emission from the low-pressure gas-phase NO — О reaction system has been studied from 1 to ...
This thesis presents the study of a selection of gas phase chemical processes using time-resolved Fo...
A previously reported microwave-optical double resonance observed in the fluorescence of NO2 excited...
This thesis has applied the time-resolved FTIR emission technique to the study of a number of gas ph...
A study of the photodissociation dynamics of NO2 in the 200–205 nm region using resonance enhanced ...
Velocity-map ion imaging has been applied to the photodissociation of NO(2) via the first absorption...