Laser Spectroscopy has revolutionised the determination of molecular structure. The Cambridge Infrared Laser Spectroscopy Group uses a variety of novel laser based techniques to study molecules in situations as diverse as low pressure electric discharges (plasmas) and on surfaces buried under liquids. The shapes of short lived molecules like free radicals and ions are precisely determined using solid state diode lasers in combination with sensitive, species- specific detection methods like Velocity Modulation. Recent diode laser spectroscopy of free radicals has included measurement of the band strength of the methyl radical, CH3. This is required for detection and density measurements of CH3 in the atmospheres of the giant planets Saturn and Neptune. We are now enhancing the sensitivity of IR laser absorption spectroscopy in a fruitful collaboration with German colleagues using a Cavity Ring Down (CRD) spectrometer built around novel Quantum Cascade Lasers. The group is also heavily involved in non linear laser spectroscopy particularly the interface specific technique of Sum Frequency Generation (SFG). We use SFG to gain insight into adsorption at interfaces on a molecular scale e.g. of surfactants and polymers. We use nano and picosecond lasers for SFG in Cambridge and femtosecond SFG to quantify non linear optical effects in Langmuir Blodgett films in a joint project with co-workers in Hokkaido, Japan. The aim is eventually to use SFG to study biological systems like the lung surfactants. In addition to our international projects, which involve overseas visits by our research students, much of our work on surfaces and interfaces is strongly supported by industry.
Adsorption of SDS and PEG on calcium fluoride studied by sum frequency generation vibrational spectroscopy.
MTL Casford, PB Davies - J Phys Chem B (
2008)
112, 2616
(DOI:
10.1021/jp076411k)
Whispering gallery mode spectroscopy as a diagnostic for dusty plasmas
G Thieme, R Basner, H Maurer, J Ehlbeck, J Röpcke, H Kersten, PB Davies - AIP Conference Proceedings (2008) 1041, 281
Diode laser absorption spectroscopy of the nu(2) fundamental band of propadienone formed in a pyrolysis jet
PJ O'Sullivan, RJ Livingstone, Z Liu, PB Davies - MOLECULAR PHYSICS (
2007)
105, 727
(DOI:
10.1080/00268970701219199)
Kinetic and diagnostic studies of molecular plasmas using laser absorption techniques
S Welzel, A Rousseau, PB Davies, J Röpcke - Journal of Physics: Conference Series (2007) 86
Diode laser absorption spectroscopy of the v2 fundamental band of propadienone formed in a pyrolysis jet
PJ O'Sullivan, RJ Livingstone, Z Liu, PB Davies - Molecular Physics (2007) 105, 727
Application of mid-infrared tuneable diode laser absorption spectroscopy to plasma diagnostics: a review
J Ropcke, G Lombardi, A Rousseau, PB Davies - Plasma Sources Science and Technology (
2006)
15, S148
(DOI:
10.1088/0963-0252/15/4/S02)
Adsorption of sodium dodecyl sulfate at the hydrophobic solid/aqueous solution interface in the presence of poly(ethylene glycol): dependence upon polymer molecular weight.
MTL Casford, PB Davies, NJ Neivandt - Langmuir (
2006)
22, 3105
(DOI:
10.1021/la052271z)
Optical sum-frequency emission from Langmuir-Blodgett films of variable thickness: Effects of the substrate and polar orientation of fatty acids in the films
T Nishida, CM Johnson, J Holman, M Osawa, PB Davies, S Ye - PHYS REV LETT (
2006)
96, 077402
(DOI:
10.1103/PhysRevLett.96.077402)
Diode laser spectroscopy of the nu(2) fundamental band of cis-HOPO
PJ O'Sullivan, PA Hamilton, PB Davies, JM Turney, HF Schaefer - Journal of Molecular Spectroscopy (
2006)
235, 248
(DOI:
10.1016/j.jms.2005.11.013)
Sum frequency generation from Langmuir-Blodgett multilayer films on metal and dielectric substrates
J Holman, PB Davies, T Nishida, S Ye, DJ Neivandt - J Phys Chem B (
2005)
109, 18723
(DOI:
10.1021/jp051564y)
Funding
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