Add to ORKGWe synthesize colloidal nanosuspensions with negative polarizabilities and observe self-enhanced transmission and interaction of self-trapped light over a long distance. Our results may open up new opportunities in developing soft-matter systems with tunable nonlinearities. ©2013 Optical Society of America
Robust propagation of self-trapped light over distances exceeding 25 diffraction lengths has been de...
We demonstrate for the first time stable self-trapping and self-induced transparency of light propag...
We demonstrate optical interactions between stable self-trapped optical beams in soft-matter systems...
We synthesize colloidal nanosuspensions with negative polarizabilities and observe self-enhanced tra...
We demonstrate a new class of synthetic colloidal suspensions capable of exhibiting negative polariz...
We demonstrate a new class of synthetic colloidal suspensions capable of exhibiting negative polariz...
We demonstrate a new class of synthetic colloidal suspensions capable of exhibiting negative polariz...
We provide a brief report on our recent work on dielectric and metallic colloidal nanosuspensions wi...
We demonstrate for the first time stable self-trapping and self-induced transparency of light propag...
We demonstrate for the first time stable self-trapping and self-induced transparency of light propag...
We demonstrate optical interactions between stable self-trapped optical beams in soft-matter systems...
We demonstrate optical interactions between stable self-trapped optical beams in soft-matter systems...
One of the most intriguing properties of light-matter interaction is the ability of an electromagnet...
Robust propagation of self-trapped light over distances exceeding 25 diffraction lengths has been de...
Robust propagation of self-trapped light over distances exceeding 25 diffraction lengths has been de...
Robust propagation of self-trapped light over distances exceeding 25 diffraction lengths has been de...
We demonstrate for the first time stable self-trapping and self-induced transparency of light propag...
We demonstrate optical interactions between stable self-trapped optical beams in soft-matter systems...
We synthesize colloidal nanosuspensions with negative polarizabilities and observe self-enhanced tra...
We demonstrate a new class of synthetic colloidal suspensions capable of exhibiting negative polariz...
We demonstrate a new class of synthetic colloidal suspensions capable of exhibiting negative polariz...
We demonstrate a new class of synthetic colloidal suspensions capable of exhibiting negative polariz...
We provide a brief report on our recent work on dielectric and metallic colloidal nanosuspensions wi...
We demonstrate for the first time stable self-trapping and self-induced transparency of light propag...
We demonstrate for the first time stable self-trapping and self-induced transparency of light propag...
We demonstrate optical interactions between stable self-trapped optical beams in soft-matter systems...
We demonstrate optical interactions between stable self-trapped optical beams in soft-matter systems...
One of the most intriguing properties of light-matter interaction is the ability of an electromagnet...
Robust propagation of self-trapped light over distances exceeding 25 diffraction lengths has been de...
Robust propagation of self-trapped light over distances exceeding 25 diffraction lengths has been de...
Robust propagation of self-trapped light over distances exceeding 25 diffraction lengths has been de...
We demonstrate for the first time stable self-trapping and self-induced transparency of light propag...
We demonstrate optical interactions between stable self-trapped optical beams in soft-matter systems...