Add to ORKGThe theory for a sensitive spectroscopy based on the photothermal deflection of a laser beam is developed. We consider cw and pulsed cases of both transverse and collinear photothermal deflection spectroscopy for solids, liquids, gases, and thin films. The predictions of the theory are experimentally verified, its implications for imaging and microscopy are given, and the sources of noise are analyzed. The sensitivity and versatility of photothermal deflection spectroscopy are compared with thermal lensing and photoacoustic spectroscopy
This article examines some recent experiments and theories that have advanced our understanding of t...
We report on key signal contributions in photothermal deflection spectroscopy (PDS) of semiconductor...
A three-dimensional time-resolved theory and experiment for photothermal deflection spectroscopy is ...
The theory and experlmentat scheme for uslng an analyzer etalon to detect photothermal deflection sl...
The theory and experlmentat scheme for uslng an analyzer etalon to detect photothermal deflection sl...
The emergence of lasers in the early sixties has not only revolutionized the field of optics and com...
We present a highly sensitive and simple photothermal scheme for determining optical absorptions in ...
The photothermal effect is the refractive index gradient created by heat emission caused by photon a...
Photothermal deflection spectroscopy (PDS) has recently emerged as a very sensitive method for the d...
The photothermal methods are known to be a useful tool for thermal characterization of materials. Am...
A simple method for calculating the effects of optical geometry on photothermal lens signals is show...
A simple method for calculating the effects of optical geometry on photothermal lens signals is show...
This article examines some recent experiments and theories that have advanced our understanding of t...
Discovery of coherent optical sources four decades ago has revolutionized all fields of scientific d...
A simple method for calculating the effects of optical geometry on photothermal lens signals is show...
This article examines some recent experiments and theories that have advanced our understanding of t...
We report on key signal contributions in photothermal deflection spectroscopy (PDS) of semiconductor...
A three-dimensional time-resolved theory and experiment for photothermal deflection spectroscopy is ...
The theory and experlmentat scheme for uslng an analyzer etalon to detect photothermal deflection sl...
The theory and experlmentat scheme for uslng an analyzer etalon to detect photothermal deflection sl...
The emergence of lasers in the early sixties has not only revolutionized the field of optics and com...
We present a highly sensitive and simple photothermal scheme for determining optical absorptions in ...
The photothermal effect is the refractive index gradient created by heat emission caused by photon a...
Photothermal deflection spectroscopy (PDS) has recently emerged as a very sensitive method for the d...
The photothermal methods are known to be a useful tool for thermal characterization of materials. Am...
A simple method for calculating the effects of optical geometry on photothermal lens signals is show...
A simple method for calculating the effects of optical geometry on photothermal lens signals is show...
This article examines some recent experiments and theories that have advanced our understanding of t...
Discovery of coherent optical sources four decades ago has revolutionized all fields of scientific d...
A simple method for calculating the effects of optical geometry on photothermal lens signals is show...
This article examines some recent experiments and theories that have advanced our understanding of t...
We report on key signal contributions in photothermal deflection spectroscopy (PDS) of semiconductor...
A three-dimensional time-resolved theory and experiment for photothermal deflection spectroscopy is ...