Add to ORKGWe introduce a multimaterial fiber preform coextrusion methodology that enables the production of robust infrared glass fibers starting from two 10-mm-diameter, 3-mm-thick chalcogenide glass discs by one-step extrusion followed by traditional fiber drawing. © OSA 2013
We demonstrate a novel process of one-step extrusion of multi-material fiber preforms containing cha...
First of all, Ge15Sb20S65 and Ge25Sb5Se70 bulk chalcogenide glasses with different sizes were prepar...
A two-step approach to produce robust chalcogenide fibers with \u3c 1 dB/m loss across the infrared ...
We introduce a multimaterial fiber preform coextrusion methodology that enables the production of ro...
We introduce a multimaterial fiber preform coextrusion methodology that enables the production of ro...
The utilization of infrared chalcogenide glass (ChG) fibers has long been hampered by the unfavorabl...
The utilization of infrared chalcogenide glass (ChG) fibers has long been hampered by the unfavorabl...
The development of robust infrared fibers is crucial for harnessing the capabilities of new mid-infr...
The development of robust infrared fibers is crucial for harnessing the capabilities of new mid-infr...
The development of robust infrared fibers is crucial for harnessing the capabilities of new mid-infr...
A critical challenge in the fabrication of chalcogenide-glass infrared optical fibers is the need fo...
We demonstrate a novel process of one-step extrusion of multi-material fiber preforms containing cha...
We demonstrate a novel process of one-step extrusion of multi-material fiber preforms containing cha...
We demonstrate a novel process of one-step extrusion of multi-material fiber preforms containing cha...
We demonstrate a novel process of one-step extrusion of multi-material fiber preforms containing cha...
We demonstrate a novel process of one-step extrusion of multi-material fiber preforms containing cha...
First of all, Ge15Sb20S65 and Ge25Sb5Se70 bulk chalcogenide glasses with different sizes were prepar...
A two-step approach to produce robust chalcogenide fibers with \u3c 1 dB/m loss across the infrared ...
We introduce a multimaterial fiber preform coextrusion methodology that enables the production of ro...
We introduce a multimaterial fiber preform coextrusion methodology that enables the production of ro...
The utilization of infrared chalcogenide glass (ChG) fibers has long been hampered by the unfavorabl...
The utilization of infrared chalcogenide glass (ChG) fibers has long been hampered by the unfavorabl...
The development of robust infrared fibers is crucial for harnessing the capabilities of new mid-infr...
The development of robust infrared fibers is crucial for harnessing the capabilities of new mid-infr...
The development of robust infrared fibers is crucial for harnessing the capabilities of new mid-infr...
A critical challenge in the fabrication of chalcogenide-glass infrared optical fibers is the need fo...
We demonstrate a novel process of one-step extrusion of multi-material fiber preforms containing cha...
We demonstrate a novel process of one-step extrusion of multi-material fiber preforms containing cha...
We demonstrate a novel process of one-step extrusion of multi-material fiber preforms containing cha...
We demonstrate a novel process of one-step extrusion of multi-material fiber preforms containing cha...
We demonstrate a novel process of one-step extrusion of multi-material fiber preforms containing cha...
First of all, Ge15Sb20S65 and Ge25Sb5Se70 bulk chalcogenide glasses with different sizes were prepar...
A two-step approach to produce robust chalcogenide fibers with \u3c 1 dB/m loss across the infrared ...