Experimental control of steady state photorefractive self-focusing in InP: Fe at infrared wavelengths
Applied Physics B, 2011 - Springer
This paper reports an experimental study of the self-focusing process in iron doped indium
phosphide at an 1.06 micron wavelength, identifying the influence of temperature, beam …
phosphide at an 1.06 micron wavelength, identifying the influence of temperature, beam …
Experimental control of steady state photorefractive self-focusing in InP: Fe at infrared wavelengths
C Dan, D Wolfersberger, N Fressengeas - Applied Physics B, 2011 - infona.pl
This paper reports an experimental study of the self-focusing process in iron doped indium
phosphide at an 1.06 micron wavelength, identifying the influence of temperature, beam …
phosphide at an 1.06 micron wavelength, identifying the influence of temperature, beam …
[PDF][PDF] Experimental control of steady state photorefractive self-focusing in InP: Fe at infrared wavelengths
C Dan, D Wolfersberger, N Fressengeas - 2011 - researchgate.net
This paper reports an experimental study of the self-focusing process in iron doped indium
phosphide at an 1.06 micron wavelength, identifying the influence of temperature, beam …
phosphide at an 1.06 micron wavelength, identifying the influence of temperature, beam …
[PDF][PDF] Experimental control of steady state photorefractive self-focusing in InP: Fe at infrared wavelengths
C Dan, D Wolfersberger, N Fressengeas - 2011 - core.ac.uk
This paper reports an experimental study of the self-focusing process in iron doped indium
phosphide at an 1.06 micron wavelength, identifying the influence of temperature, beam …
phosphide at an 1.06 micron wavelength, identifying the influence of temperature, beam …
Experimental control of steady state photorefractive self-focusing in InP: Fe at infrared wavelengths.
C Dan, D Wolfersberger… - Applied Physics B …, 2011 - search.ebscohost.com
This paper reports an experimental study of the self-focusing process in iron doped indium
phosphide at an 1.06 micron wavelength, identifying the influence of temperature, beam …
phosphide at an 1.06 micron wavelength, identifying the influence of temperature, beam …
Experimental control of steady state photorefractive self-focusing in InP: Fe at infrared wavelengths
C Dan, D Wolfersberger… - Applied Physics B …, 2011 - ui.adsabs.harvard.edu
This paper reports an experimental study of the self-focusing process in iron doped indium
phosphide at an 1.06 micron wavelength, identifying the influence of temperature, beam …
phosphide at an 1.06 micron wavelength, identifying the influence of temperature, beam …
Experimental control of steady state photorefractive self-focusing in InP: Fe at infrared wavelengths
C Dan, D Wolfersberger, N Fressengeas - Applied Physics B-Laser and …, 2011 - hal.science
This paper reports an experimental study of the self-focusing process in iron doped indium
phosphide at an 1.06 micron wavelength, identifying the influence of temperature, beam …
phosphide at an 1.06 micron wavelength, identifying the influence of temperature, beam …
Experimental control of steady state photorefractive self-focusing in InP: Fe at infrared wavelengths.
C Dan, D Wolfersberger… - Applied Physics B …, 2011 - search.ebscohost.com
This paper reports an experimental study of the self-focusing process in iron doped indium
phosphide at an 1.06 micron wavelength, identifying the influence of temperature, beam …
phosphide at an 1.06 micron wavelength, identifying the influence of temperature, beam …
[PDF][PDF] Experimental control of steady state photorefractive self-focusing in InP: Fe at infrared wavelengths
C Dan, D Wolfersberger, N Fressengeas - 2011 - hal.science
This paper reports an experimental study of the self-focusing process in iron doped indium
phosphide at an 1.06 micron wavelength, identifying the influence of temperature, beam …
phosphide at an 1.06 micron wavelength, identifying the influence of temperature, beam …