Spontaneous Raman spectra of binary niobium-phosphate glasses with large gain bandwidth (\u3e 1000 cm-1) are measured down to low wavenumbers. Correlations of enhanced low frequency scattering with molecular structure and medium range order are investigated. © 2005 Optical Society of America
Investigations of new materials possessing both higher Raman gain and larger spectral bandwidth than...
Different glass families have been evaluated for their Raman gain performance. Raman cross-section c...
Raman Gain coefficients have been measured for several different compositions of a variety of glass ...
Spontaneous Raman spectra of binary niobium-phosphate glasses with large gain bandwidth (\u3e 1000 c...
Raman gain for all-optical amplification depends significantly on the cross section for spontaneous ...
Raman gain for all-optical amplification depends significantly on the cross section for spontaneous ...
We present measurements of the vibrational spectrum of a binary niobium-phosphate glass in the THz f...
We present measurements of the vibrational spectrum of a binary niobium-phosphate glass in the THz f...
This thesis investigates Raman spectra of novel glasses and their correlation with structure for Ram...
We investigate the low-frequency enhancement of vibrational excitations (\u27boson peak\u27) in niob...
We investigate the low-frequency enhancement of vibrational excitations (\u27boson peak\u27) in niob...
New glasses which exhibit a broadband Raman spectral response have been prepared and characterised f...
New glasses which exhibit a broadband Roman spectral response have been prepared and characterised f...
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...
Investigations of new materials possessing both higher Raman gain and larger spectral bandwidth than...
Different glass families have been evaluated for their Raman gain performance. Raman cross-section c...
Raman Gain coefficients have been measured for several different compositions of a variety of glass ...
Spontaneous Raman spectra of binary niobium-phosphate glasses with large gain bandwidth (\u3e 1000 c...
Raman gain for all-optical amplification depends significantly on the cross section for spontaneous ...
Raman gain for all-optical amplification depends significantly on the cross section for spontaneous ...
We present measurements of the vibrational spectrum of a binary niobium-phosphate glass in the THz f...
We present measurements of the vibrational spectrum of a binary niobium-phosphate glass in the THz f...
This thesis investigates Raman spectra of novel glasses and their correlation with structure for Ram...
We investigate the low-frequency enhancement of vibrational excitations (\u27boson peak\u27) in niob...
We investigate the low-frequency enhancement of vibrational excitations (\u27boson peak\u27) in niob...
New glasses which exhibit a broadband Raman spectral response have been prepared and characterised f...
New glasses which exhibit a broadband Roman spectral response have been prepared and characterised f...
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...
Investigations of new materials possessing both higher Raman gain and larger spectral bandwidth than...
Different glass families have been evaluated for their Raman gain performance. Raman cross-section c...
Raman Gain coefficients have been measured for several different compositions of a variety of glass ...