Add to ORKGThe Raman effect, by which light is frequency shifted by a vibrational mode, enters into a number of phenomena in nonlinear optics. Here, we summarize our progress in identifying glass materials with potentially useful Raman properties, methods for measuring the strength of the Raman effect and its spectral dependence, and the properties of a number of different families of glasses. Glasses with both larger peak Raman susceptibilities and larger bandwidths relative to fused silica are reported
Spontaneous Raman spectra of binary niobium-phosphate glasses with large gain bandwidth (\u3e 1000 c...
Investigations of new materials possessing both higher Raman gain and larger spectral bandwidth than...
Investigations of new materials possessing both higher Raman gain and larger spectral bandwidth than...
The Raman effect, by which light is frequency shifted by a vibrational mode, enters into a number of...
The need for more bandwidth in communications has stimulated the search for new fiberizable material...
Interest in Raman amplification has undergone a revival due to the rapidly increasing bandwidth requ...
The absolute Raman gain coefficient in families of new bulk glasses has been investigated. Raman gai...
Different glass families have been evaluated for their Raman gain performance. Raman cross-section c...
This thesis investigates Raman spectra of novel glasses and their correlation with structure for Ram...
Raman Gain coefficients have been measured for several different compositions of a variety of glass ...
New glasses which exhibit a broadband Raman spectral response have been prepared and characterised f...
Increased interest in highly nonlinear glasses for use as Raman amplifiers has encouraged the develo...
The goal of this paper is to summarize findings on different oxide-based glasses that have been engi...
Increased interest in highly nonlinear glasses for use as Raman amplifiers has encouraged the develo...
New glasses which exhibit a broadband Roman spectral response have been prepared and characterised f...
Spontaneous Raman spectra of binary niobium-phosphate glasses with large gain bandwidth (\u3e 1000 c...
Investigations of new materials possessing both higher Raman gain and larger spectral bandwidth than...
Investigations of new materials possessing both higher Raman gain and larger spectral bandwidth than...
The Raman effect, by which light is frequency shifted by a vibrational mode, enters into a number of...
The need for more bandwidth in communications has stimulated the search for new fiberizable material...
Interest in Raman amplification has undergone a revival due to the rapidly increasing bandwidth requ...
The absolute Raman gain coefficient in families of new bulk glasses has been investigated. Raman gai...
Different glass families have been evaluated for their Raman gain performance. Raman cross-section c...
This thesis investigates Raman spectra of novel glasses and their correlation with structure for Ram...
Raman Gain coefficients have been measured for several different compositions of a variety of glass ...
New glasses which exhibit a broadband Raman spectral response have been prepared and characterised f...
Increased interest in highly nonlinear glasses for use as Raman amplifiers has encouraged the develo...
The goal of this paper is to summarize findings on different oxide-based glasses that have been engi...
Increased interest in highly nonlinear glasses for use as Raman amplifiers has encouraged the develo...
New glasses which exhibit a broadband Roman spectral response have been prepared and characterised f...
Spontaneous Raman spectra of binary niobium-phosphate glasses with large gain bandwidth (\u3e 1000 c...
Investigations of new materials possessing both higher Raman gain and larger spectral bandwidth than...
Investigations of new materials possessing both higher Raman gain and larger spectral bandwidth than...