LIGHT SOURCES BASED ON OPTICAL FIBERS WITH SPECIAL MODES (Q3150161): Difference between revisions
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(Removed claim: summary (P836): THE USE OF THE MODAL SPECTRUM OF OPTIC FIBRES, EXPLOITING THE PARTICULAR PROPERTIES OF SPECIFIC MODES OF HIGHER ORDER, IS THE CENTRAL IDEA OF THE PROPOSED COORDINATED PROJECT. THIS TOPIC OF WORK HAS AS A FRAME OF REFERENCE THE DEVELOPMENT OF HIGH CAPACITY OPTICAL COMMUNICATIONS BASED ON THE TECHNIQUES OF MULTIPLEXACION BY DIVISION OF SPACE, FIBERS OF FEW MODES AND MULTI-NUCLEUS FIBERS. THE DESIGN OF THE OPTICAL FIBERS ALLOWS TO OBTAIN MODES WI...) |
(Created claim: summary (P836): THE USE OF THE MODAL SPECTRUM OF OPTIC FIBRES, EXPLOITING THE PARTICULAR PROPERTIES OF SPECIFIC MODES OF HIGHER ORDER, IS THE CENTRAL IDEA OF THE PROPOSED COORDINATED PROJECT. THIS TOPIC OF WORK HAS AS A FRAME OF REFERENCE THE DEVELOPMENT OF HIGH CAPACITY OPTICAL COMMUNICATIONS BASED ON THE TECHNIQUES OF MULTIPLEXACION BY DIVISION OF SPACE, FIBERS OF FEW MODES AND MULTI-NUCLEUS FIBERS. THE DESIGN OF THE OPTICAL FIBERS ALLOWS TO OBTAIN MODES WITH...) |
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THE USE OF THE MODAL SPECTRUM OF OPTIC FIBRES, EXPLOITING THE PARTICULAR PROPERTIES OF SPECIFIC MODES OF HIGHER ORDER, IS THE CENTRAL IDEA OF THE PROPOSED COORDINATED PROJECT. THIS TOPIC OF WORK HAS AS A FRAME OF REFERENCE THE DEVELOPMENT OF HIGH CAPACITY OPTICAL COMMUNICATIONS BASED ON THE TECHNIQUES OF MULTIPLEXACION BY DIVISION OF SPACE, FIBERS OF FEW MODES AND MULTI-NUCLEUS FIBERS. THE DESIGN OF THE OPTICAL FIBERS ALLOWS TO OBTAIN MODES WITH PROPERTIES OF DISPERSION, MODAL AREA AND DISTRIBUTION OF INTENSITY VERY DIFFERENT FROM THOSE OF THE FUNDAMENTAL MODE. THE EXCITATION AND PROPAGATION OF THESE MODES INDIVIDUALLY ENABLES THE EXPLOITATION OF THESE PROPERTIES IN DIFFERENT AREAS, NOT EXCLUSIVELY RELATED TO COMMUNICATIONS, SUCH AS LASER APPLICATIONS, AMPLIFIERS, SPECIAL LIGHT SOURCES (SUPERCONTINUOUS, PAIRS OF PHOTONS, FREQUENCY COMBS, ETC.), OPTICAL SENSORS AND SWITCHES. _x000D_ the PROJECT BEFORE THE DESIGN AND FABRICATION OF OPTICAL FIBRAS WITH a microstructured disTRIBUTION of dopants (GERMANY, ERBIO and iterbium), a microstructure OF AIRE AGUJEROS AND AMBAS COMBINANCTIONS, AND WITH A SIMPLE CONFIGURATION TYPE NUCLE-CUBIERTA OR OF DOUBLE CUBIERTA. LIKEWISE, THE PROJECT WILL DEVELOP VARIOUS TECHNIQUES FOR SELECTIVE EXCITATION OF CERTAIN MODES, INCLUDING DYNAMIC TECHNIQUES THAT ALLOW THE DISTRIBUTION OF ENERGY BETWEEN FIBER MODES TO BE RECONFIGURED. THE USE OF GERMANIUM-DOPED FIBRES WILL ALLOW THE RECORDING OF DIFFRACTION NETWORKS WITH CONVENTIONAL TECHNIQUES BASED ON THE USE OF ULTRAVIOLET RADIATION. At the same time, the use of active dopants (ERBIO and iterbium) will allow the selective amplification of cierts MODES OF FIBRA._x000D_ DEPONATE OF ALL THIS FABRICATION FIBRIES OWN ABOUT NEW POSSIBILITIES OF USE OF SUPERIOR ORDER MODES TANT TO GET DISPERSION IN short-cut PULSERS AS TO OPTIMICE SPECIAL LIGHT SOURCES BEFORE MENCED, as well as to perform a SPACIAL or TEMPORAL SINGULAR STRUCTURE. ALSO, COMBINING THESE MODES WITH ACTIVE PROPERTIES WILL FACILITATE THE DESIGN OF NEW MODAL INTERFEROMETROS, WITH UNDISPUTED PERFORMANCE FOR SENSOR APPLICATIONS, AND OPTIONAL SWITCHES. THE PROJECT INCLUDES THE DEVELOPMENT OF MODELLING TOOLS AND SPECIFIC CHARACTERISATION TECHNIQUES, BOTH REQUIRED BY THE NOVELTY OF BOTH THE MODAL STRUCTURE OF THE FIBERS TO BE USED AND THE ADDITION OF A DOPING MICROSTRUCTURE. THE MODELLING WILL INCLUDE ALL THIS TOGETHER WITH THE INFLUENCE OF NONLINEAR EFFECTS ON THE PROPAGATION, AND WILL BE ORIENTED BOTH TO THE OPTIMISATION OF SPECIFIC CHARACTERISTIC PARAMETERS AND, IN THE LAST INSTANCE, TO THAT OF DEVICES: Lasers, LIGHT SOURCES, MODAL INTERFEROMETROS AND CONMUTATORS._x000D_ THE PROJECT has a TRANSVERSAL CARACTER MARKET, INHERENT to the PHOTONIC AREA, but does not rennect to the development of concret applications. AMONG THE EXPECTED RESULTS OF THE PROJECT WE HIGHLIGHT THE DEVELOPMENT OF ITS OWN TECHNOLOGY OF FIBERS WITH SPECIAL MODES AND ITS APPLICATION TO DEVICES SUCH AS LASERS, POWER AMPLIFIERS, ROBUST SENSORS AND SPECIAL LIGHT SOURCES, ALL OF THEM EXPLOITABLE ESPECIALLY IN THE FIELD OF SECURITY, PROTECTION AND DEFENCE, BUT ALSO IN OTHER AREAS IDENTIFIED AS CHALLENGES IN THIS CALL, AS IT IS NATURAL TO TRY A THEMATIC SPECIFICALLY INDICATED AS “ESSENTIAL ENABLING TECHNOLOGY”. (English) | |||||||||||||||
| Property / summary: THE USE OF THE MODAL SPECTRUM OF OPTIC FIBRES, EXPLOITING THE PARTICULAR PROPERTIES OF SPECIFIC MODES OF HIGHER ORDER, IS THE CENTRAL IDEA OF THE PROPOSED COORDINATED PROJECT. THIS TOPIC OF WORK HAS AS A FRAME OF REFERENCE THE DEVELOPMENT OF HIGH CAPACITY OPTICAL COMMUNICATIONS BASED ON THE TECHNIQUES OF MULTIPLEXACION BY DIVISION OF SPACE, FIBERS OF FEW MODES AND MULTI-NUCLEUS FIBERS. THE DESIGN OF THE OPTICAL FIBERS ALLOWS TO OBTAIN MODES WITH PROPERTIES OF DISPERSION, MODAL AREA AND DISTRIBUTION OF INTENSITY VERY DIFFERENT FROM THOSE OF THE FUNDAMENTAL MODE. THE EXCITATION AND PROPAGATION OF THESE MODES INDIVIDUALLY ENABLES THE EXPLOITATION OF THESE PROPERTIES IN DIFFERENT AREAS, NOT EXCLUSIVELY RELATED TO COMMUNICATIONS, SUCH AS LASER APPLICATIONS, AMPLIFIERS, SPECIAL LIGHT SOURCES (SUPERCONTINUOUS, PAIRS OF PHOTONS, FREQUENCY COMBS, ETC.), OPTICAL SENSORS AND SWITCHES. _x000D_ the PROJECT BEFORE THE DESIGN AND FABRICATION OF OPTICAL FIBRAS WITH a microstructured disTRIBUTION of dopants (GERMANY, ERBIO and iterbium), a microstructure OF AIRE AGUJEROS AND AMBAS COMBINANCTIONS, AND WITH A SIMPLE CONFIGURATION TYPE NUCLE-CUBIERTA OR OF DOUBLE CUBIERTA. LIKEWISE, THE PROJECT WILL DEVELOP VARIOUS TECHNIQUES FOR SELECTIVE EXCITATION OF CERTAIN MODES, INCLUDING DYNAMIC TECHNIQUES THAT ALLOW THE DISTRIBUTION OF ENERGY BETWEEN FIBER MODES TO BE RECONFIGURED. THE USE OF GERMANIUM-DOPED FIBRES WILL ALLOW THE RECORDING OF DIFFRACTION NETWORKS WITH CONVENTIONAL TECHNIQUES BASED ON THE USE OF ULTRAVIOLET RADIATION. At the same time, the use of active dopants (ERBIO and iterbium) will allow the selective amplification of cierts MODES OF FIBRA._x000D_ DEPONATE OF ALL THIS FABRICATION FIBRIES OWN ABOUT NEW POSSIBILITIES OF USE OF SUPERIOR ORDER MODES TANT TO GET DISPERSION IN short-cut PULSERS AS TO OPTIMICE SPECIAL LIGHT SOURCES BEFORE MENCED, as well as to perform a SPACIAL or TEMPORAL SINGULAR STRUCTURE. ALSO, COMBINING THESE MODES WITH ACTIVE PROPERTIES WILL FACILITATE THE DESIGN OF NEW MODAL INTERFEROMETROS, WITH UNDISPUTED PERFORMANCE FOR SENSOR APPLICATIONS, AND OPTIONAL SWITCHES. THE PROJECT INCLUDES THE DEVELOPMENT OF MODELLING TOOLS AND SPECIFIC CHARACTERISATION TECHNIQUES, BOTH REQUIRED BY THE NOVELTY OF BOTH THE MODAL STRUCTURE OF THE FIBERS TO BE USED AND THE ADDITION OF A DOPING MICROSTRUCTURE. THE MODELLING WILL INCLUDE ALL THIS TOGETHER WITH THE INFLUENCE OF NONLINEAR EFFECTS ON THE PROPAGATION, AND WILL BE ORIENTED BOTH TO THE OPTIMISATION OF SPECIFIC CHARACTERISTIC PARAMETERS AND, IN THE LAST INSTANCE, TO THAT OF DEVICES: Lasers, LIGHT SOURCES, MODAL INTERFEROMETROS AND CONMUTATORS._x000D_ THE PROJECT has a TRANSVERSAL CARACTER MARKET, INHERENT to the PHOTONIC AREA, but does not rennect to the development of concret applications. AMONG THE EXPECTED RESULTS OF THE PROJECT WE HIGHLIGHT THE DEVELOPMENT OF ITS OWN TECHNOLOGY OF FIBERS WITH SPECIAL MODES AND ITS APPLICATION TO DEVICES SUCH AS LASERS, POWER AMPLIFIERS, ROBUST SENSORS AND SPECIAL LIGHT SOURCES, ALL OF THEM EXPLOITABLE ESPECIALLY IN THE FIELD OF SECURITY, PROTECTION AND DEFENCE, BUT ALSO IN OTHER AREAS IDENTIFIED AS CHALLENGES IN THIS CALL, AS IT IS NATURAL TO TRY A THEMATIC SPECIFICALLY INDICATED AS “ESSENTIAL ENABLING TECHNOLOGY”. (English) / rank | |||||||||||||||
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| Property / summary: THE USE OF THE MODAL SPECTRUM OF OPTIC FIBRES, EXPLOITING THE PARTICULAR PROPERTIES OF SPECIFIC MODES OF HIGHER ORDER, IS THE CENTRAL IDEA OF THE PROPOSED COORDINATED PROJECT. THIS TOPIC OF WORK HAS AS A FRAME OF REFERENCE THE DEVELOPMENT OF HIGH CAPACITY OPTICAL COMMUNICATIONS BASED ON THE TECHNIQUES OF MULTIPLEXACION BY DIVISION OF SPACE, FIBERS OF FEW MODES AND MULTI-NUCLEUS FIBERS. THE DESIGN OF THE OPTICAL FIBERS ALLOWS TO OBTAIN MODES WITH PROPERTIES OF DISPERSION, MODAL AREA AND DISTRIBUTION OF INTENSITY VERY DIFFERENT FROM THOSE OF THE FUNDAMENTAL MODE. THE EXCITATION AND PROPAGATION OF THESE MODES INDIVIDUALLY ENABLES THE EXPLOITATION OF THESE PROPERTIES IN DIFFERENT AREAS, NOT EXCLUSIVELY RELATED TO COMMUNICATIONS, SUCH AS LASER APPLICATIONS, AMPLIFIERS, SPECIAL LIGHT SOURCES (SUPERCONTINUOUS, PAIRS OF PHOTONS, FREQUENCY COMBS, ETC.), OPTICAL SENSORS AND SWITCHES. _x000D_ the PROJECT BEFORE THE DESIGN AND FABRICATION OF OPTICAL FIBRAS WITH a microstructured disTRIBUTION of dopants (GERMANY, ERBIO and iterbium), a microstructure OF AIRE AGUJEROS AND AMBAS COMBINANCTIONS, AND WITH A SIMPLE CONFIGURATION TYPE NUCLE-CUBIERTA OR OF DOUBLE CUBIERTA. LIKEWISE, THE PROJECT WILL DEVELOP VARIOUS TECHNIQUES FOR SELECTIVE EXCITATION OF CERTAIN MODES, INCLUDING DYNAMIC TECHNIQUES THAT ALLOW THE DISTRIBUTION OF ENERGY BETWEEN FIBER MODES TO BE RECONFIGURED. THE USE OF GERMANIUM-DOPED FIBRES WILL ALLOW THE RECORDING OF DIFFRACTION NETWORKS WITH CONVENTIONAL TECHNIQUES BASED ON THE USE OF ULTRAVIOLET RADIATION. At the same time, the use of active dopants (ERBIO and iterbium) will allow the selective amplification of cierts MODES OF FIBRA._x000D_ DEPONATE OF ALL THIS FABRICATION FIBRIES OWN ABOUT NEW POSSIBILITIES OF USE OF SUPERIOR ORDER MODES TANT TO GET DISPERSION IN short-cut PULSERS AS TO OPTIMICE SPECIAL LIGHT SOURCES BEFORE MENCED, as well as to perform a SPACIAL or TEMPORAL SINGULAR STRUCTURE. ALSO, COMBINING THESE MODES WITH ACTIVE PROPERTIES WILL FACILITATE THE DESIGN OF NEW MODAL INTERFEROMETROS, WITH UNDISPUTED PERFORMANCE FOR SENSOR APPLICATIONS, AND OPTIONAL SWITCHES. THE PROJECT INCLUDES THE DEVELOPMENT OF MODELLING TOOLS AND SPECIFIC CHARACTERISATION TECHNIQUES, BOTH REQUIRED BY THE NOVELTY OF BOTH THE MODAL STRUCTURE OF THE FIBERS TO BE USED AND THE ADDITION OF A DOPING MICROSTRUCTURE. THE MODELLING WILL INCLUDE ALL THIS TOGETHER WITH THE INFLUENCE OF NONLINEAR EFFECTS ON THE PROPAGATION, AND WILL BE ORIENTED BOTH TO THE OPTIMISATION OF SPECIFIC CHARACTERISTIC PARAMETERS AND, IN THE LAST INSTANCE, TO THAT OF DEVICES: Lasers, LIGHT SOURCES, MODAL INTERFEROMETROS AND CONMUTATORS._x000D_ THE PROJECT has a TRANSVERSAL CARACTER MARKET, INHERENT to the PHOTONIC AREA, but does not rennect to the development of concret applications. AMONG THE EXPECTED RESULTS OF THE PROJECT WE HIGHLIGHT THE DEVELOPMENT OF ITS OWN TECHNOLOGY OF FIBERS WITH SPECIAL MODES AND ITS APPLICATION TO DEVICES SUCH AS LASERS, POWER AMPLIFIERS, ROBUST SENSORS AND SPECIAL LIGHT SOURCES, ALL OF THEM EXPLOITABLE ESPECIALLY IN THE FIELD OF SECURITY, PROTECTION AND DEFENCE, BUT ALSO IN OTHER AREAS IDENTIFIED AS CHALLENGES IN THIS CALL, AS IT IS NATURAL TO TRY A THEMATIC SPECIFICALLY INDICATED AS “ESSENTIAL ENABLING TECHNOLOGY”. (English) / qualifier | |||||||||||||||
point in time: 12 October 2021
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Revision as of 15:15, 12 October 2021
Project Q3150161 in Spain
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | LIGHT SOURCES BASED ON OPTICAL FIBERS WITH SPECIAL MODES |
Project Q3150161 in Spain |
Statements
157,360.5 Euro
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314,721.0 Euro
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50.0 percent
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1 January 2014
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31 December 2016
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UNIVERSIDAD DE VALENCIA
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39°30'14.11"N, 0°26'31.56"W
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46190
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EL APROVECHAMIENTO DEL ESPECTRO MODAL DE LAS FIBRAS OPTICAS, EXPLOTANDO LAS PROPIEDADES PARTICULARES DE MODOS CONCRETOS DE ORDEN SUPERIOR CONSTITUYE LA IDEA CENTRAL DEL PROYECTO COORDINADO QUE SE PROPONE. ESTE TEMA DE TRABAJO TIENE COMO MARCO DE REFERENCIA EL DESARROLLO DE LAS COMUNICACIONES OPTICAS DE ALTA CAPACIDAD EN BASE A LAS TECNICAS DE MULTIPLEXACION POR DIVISION DE ESPACIO, FIBRAS DE POCOS MODOS Y FIBRAS MULTINUCLEO. EL DISEÑO DE LAS FIBRAS OPTICAS PERMITE OBTENER MODOS CON PROPIEDADES DE DISPERSION, AREA MODAL Y DISTRIBUCION DE INTENSIDAD MUY DIFERENTES A LAS DEL MODO FUNDAMENTAL. LA EXCITACION Y PROPAGACION DE ESTOS MODOS DE FORMA INDIVIDUAL FACULTA LA EXPLOTACION DE ESTAS PROPIEDADES EN DIFERENTES AREAS, NO EXCLUSIVAMENTE RELACIONADAS CON LAS COMUNICACIONES, COMO SON APLICACIONES DE LASERES, AMPLIFICADORES, FUENTES DE LUZ ESPECIALES (SUPERCONTINUO, PARES DE FOTONES, PEINES DE FRECUENCIA, ETC.), SENSORES Y CONMUTADORES OPTICOS. _x000D_ EL PROYECTO ABARCA EL DISEÑO Y FABRICACION DE FIBRAS OPTICAS CON UNA DISTRIBUCION MICROESTRUCTURADA DE DOPANTES (GERMANIO, ERBIO E ITERBIO), UNA MICROESTRUCTURA DE AGUJEROS DE AIRE Y COMBINACIONES DE AMBAS, YA SEA CON UNA CONFIGURACION SIMPLE TIPO NUCLEO-CUBIERTA O DE DOBLE CUBIERTA. ASI MISMO, EL PROYECTO DESARROLLARA DIVERSAS TECNICAS PARA LA EXCITACION SELECTIVA DE DETERMINADOS MODOS, INCLUIDAS TECNICAS DINAMICAS QUE PERMITAN RECONFIGURAR LA DISTRIBUCION DE ENERGIA ENTRE LOS MODOS DE LA FIBRA. EL EMPLEO DE FIBRAS DOPADAS CON GERMANIO PERMITIRA LA GRABACION DE REDES DE DIFRACCION CON TECNICAS CONVENCIONALES BASADAS EN EL EMPLEO DE RADIACION ULTRAVIOLETA. ASI MISMO, EL EMPLEO DE DOPANTES ACTIVOS (ERBIO E ITERBIO) PERMITIRA LA AMPLIFICACION SELECTIVA DE CIERTOS MODOS DE LA FIBRA._x000D_ DISPONER DE TODAS ESTAS FIBRAS DE FABRICACION PROPIA ABRE NUEVAS POSIBILIDADES DE USO DE LOS MODOS DE ORDEN SUPERIOR TANTO PARA GESTIONAR LA DISPERSION EN LASERES DE PULSOS CORTOS COMO PARA OPTIMIZAR LAS FUENTES DE LUZ ESPECIALES ANTES MENCIONADAS, ASI COMO PARA OBTENER HACES CON UNA ESTRUCTURA ESPACIAL O TEMPORAL SINGULAR. IGUALMENTE, COMBINAR DICHOS MODOS CON PROPIEDADES ACTIVAS FACILITARA EL DISEÑO DE NUEVOS INTERFEROMETROS MODALES, CON INDISCUTIBLES PRESTACIONES PARA APLICACIONES DE SENSOR, Y DE CONMUTADORES OPTICOS. EL PROYECTO INCLUYE EL DESARROLLO DE HERRAMIENTAS DE MODELIZACION Y DE TECNICAS DE CARACTERIZACION ESPECIFICAS, AMBAS REQUERIDAS POR LA NOVEDAD QUE SUPONE TANTO LA ESTRUCTURA MODAL DE LAS FIBRAS A EMPLEAR COMO LA ADICION DE UNA MICROESTRUCTURA DE DOPANTES. LA MODELIZACION INCLUIRA TODO ELLO JUNTO CON LA INFLUENCIA DE EFECTOS NO LINEALES EN LA PROPAGACION, Y SE ORIENTARA TANTO A LA OPTIMIZACION DE PARAMETROS CARACTERISTICOS CONCRETOS COMO, EN ULTIMA INSTANCIA, A LA DE DISPOSITIVOS: LASERES, FUENTES DE LUZ, INTERFEROMETROS MODALES Y CONMUTADORES._x000D_ EL PROYECTO TIENE UN MARCADO CARACTER TRANSVERSAL, INHERENTE AL AREA DE FOTONICA, PERO NO RENUNCIA AL DESARROLLO DE APLICACIONES CONCRETAS. ENTRE LOS RESULTADOS ESPERADOS DEL PROYECTO DESTACAMOS EL DESARROLLO DE UNA TECNOLOGIA PROPIA DE FIBRAS CON MODOS ESPECIALES Y SU APLICACION A DISPOSITIVOS COMO LASERES, AMPLIFICADORES DE POTENCIA, SENSORES ROBUSTOS Y FUENTES DE LUZ ESPECIALES, TODOS ELLOS EXPLOTABLES ESPECIALMENTE EN EL AMBITO DE LA SEGURIDAD, PROTECCION Y DEFENSA, PERO TAMBIEN EN OTROS AMBITOS SEÑALADOS COMO RETOS EN LA PRESENTE CONVOCATORIA, COMO ES NATURAL TRATANDOSE DE UNA TEMATICA ESPECIFICAMENTE SEÑALADA COMO «TECNOLOGIA FACILITADORA ESENCIAL». (Spanish)
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THE USE OF THE MODAL SPECTRUM OF OPTIC FIBRES, EXPLOITING THE PARTICULAR PROPERTIES OF SPECIFIC MODES OF HIGHER ORDER, IS THE CENTRAL IDEA OF THE PROPOSED COORDINATED PROJECT. THIS TOPIC OF WORK HAS AS A FRAME OF REFERENCE THE DEVELOPMENT OF HIGH CAPACITY OPTICAL COMMUNICATIONS BASED ON THE TECHNIQUES OF MULTIPLEXACION BY DIVISION OF SPACE, FIBERS OF FEW MODES AND MULTI-NUCLEUS FIBERS. THE DESIGN OF THE OPTICAL FIBERS ALLOWS TO OBTAIN MODES WITH PROPERTIES OF DISPERSION, MODAL AREA AND DISTRIBUTION OF INTENSITY VERY DIFFERENT FROM THOSE OF THE FUNDAMENTAL MODE. THE EXCITATION AND PROPAGATION OF THESE MODES INDIVIDUALLY ENABLES THE EXPLOITATION OF THESE PROPERTIES IN DIFFERENT AREAS, NOT EXCLUSIVELY RELATED TO COMMUNICATIONS, SUCH AS LASER APPLICATIONS, AMPLIFIERS, SPECIAL LIGHT SOURCES (SUPERCONTINUOUS, PAIRS OF PHOTONS, FREQUENCY COMBS, ETC.), OPTICAL SENSORS AND SWITCHES. _x000D_ the PROJECT BEFORE THE DESIGN AND FABRICATION OF OPTICAL FIBRAS WITH a microstructured disTRIBUTION of dopants (GERMANY, ERBIO and iterbium), a microstructure OF AIRE AGUJEROS AND AMBAS COMBINANCTIONS, AND WITH A SIMPLE CONFIGURATION TYPE NUCLE-CUBIERTA OR OF DOUBLE CUBIERTA. LIKEWISE, THE PROJECT WILL DEVELOP VARIOUS TECHNIQUES FOR SELECTIVE EXCITATION OF CERTAIN MODES, INCLUDING DYNAMIC TECHNIQUES THAT ALLOW THE DISTRIBUTION OF ENERGY BETWEEN FIBER MODES TO BE RECONFIGURED. THE USE OF GERMANIUM-DOPED FIBRES WILL ALLOW THE RECORDING OF DIFFRACTION NETWORKS WITH CONVENTIONAL TECHNIQUES BASED ON THE USE OF ULTRAVIOLET RADIATION. At the same time, the use of active dopants (ERBIO and iterbium) will allow the selective amplification of cierts MODES OF FIBRA._x000D_ DEPONATE OF ALL THIS FABRICATION FIBRIES OWN ABOUT NEW POSSIBILITIES OF USE OF SUPERIOR ORDER MODES TANT TO GET DISPERSION IN short-cut PULSERS AS TO OPTIMICE SPECIAL LIGHT SOURCES BEFORE MENCED, as well as to perform a SPACIAL or TEMPORAL SINGULAR STRUCTURE. ALSO, COMBINING THESE MODES WITH ACTIVE PROPERTIES WILL FACILITATE THE DESIGN OF NEW MODAL INTERFEROMETROS, WITH UNDISPUTED PERFORMANCE FOR SENSOR APPLICATIONS, AND OPTIONAL SWITCHES. THE PROJECT INCLUDES THE DEVELOPMENT OF MODELLING TOOLS AND SPECIFIC CHARACTERISATION TECHNIQUES, BOTH REQUIRED BY THE NOVELTY OF BOTH THE MODAL STRUCTURE OF THE FIBERS TO BE USED AND THE ADDITION OF A DOPING MICROSTRUCTURE. THE MODELLING WILL INCLUDE ALL THIS TOGETHER WITH THE INFLUENCE OF NONLINEAR EFFECTS ON THE PROPAGATION, AND WILL BE ORIENTED BOTH TO THE OPTIMISATION OF SPECIFIC CHARACTERISTIC PARAMETERS AND, IN THE LAST INSTANCE, TO THAT OF DEVICES: Lasers, LIGHT SOURCES, MODAL INTERFEROMETROS AND CONMUTATORS._x000D_ THE PROJECT has a TRANSVERSAL CARACTER MARKET, INHERENT to the PHOTONIC AREA, but does not rennect to the development of concret applications. AMONG THE EXPECTED RESULTS OF THE PROJECT WE HIGHLIGHT THE DEVELOPMENT OF ITS OWN TECHNOLOGY OF FIBERS WITH SPECIAL MODES AND ITS APPLICATION TO DEVICES SUCH AS LASERS, POWER AMPLIFIERS, ROBUST SENSORS AND SPECIAL LIGHT SOURCES, ALL OF THEM EXPLOITABLE ESPECIALLY IN THE FIELD OF SECURITY, PROTECTION AND DEFENCE, BUT ALSO IN OTHER AREAS IDENTIFIED AS CHALLENGES IN THIS CALL, AS IT IS NATURAL TO TRY A THEMATIC SPECIFICALLY INDICATED AS “ESSENTIAL ENABLING TECHNOLOGY”. (English)
12 October 2021
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Paterna
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Identifiers
TEC2013-46643-C2-1-R
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