Q3164174 (Q3164174): Difference between revisions
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(Created claim: summary (P836): THE OBJECTIVE OF THE PROJECT IS THE DEVELOPMENT OF LIGHT SOURCES BASED ON OPTICAL FIBER TECHNOLOGIES ADAPTED TO ADVANCED IMAGING TECHNIQUES, SUCH AS COHERENT ANTI-STOKES RAMAN SCATTERING (CARS) AND STIMULATED RAMAN SCATTERING (SRS). THE PROJECT INCLUDES THE DEVELOPMENT OF PICOSECOND OPTIC FIBER LASERS, NONLINEAR MICROSTRUCTURED FIBERS AND SPECIAL OPTICAL FIBER COMPONENTS. THE INSTALLATION OF SEVERAL SYSTEMS DESIGNED TO OPERATE IN THREE DIFFERENT...) |
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THE OBJECTIVE OF THE PROJECT IS THE DEVELOPMENT OF LIGHT SOURCES BASED ON OPTICAL FIBER TECHNOLOGIES ADAPTED TO ADVANCED IMAGING TECHNIQUES, SUCH AS COHERENT ANTI-STOKES RAMAN SCATTERING (CARS) AND STIMULATED RAMAN SCATTERING (SRS). THE PROJECT INCLUDES THE DEVELOPMENT OF PICOSECOND OPTIC FIBER LASERS, NONLINEAR MICROSTRUCTURED FIBERS AND SPECIAL OPTICAL FIBER COMPONENTS. THE INSTALLATION OF SEVERAL SYSTEMS DESIGNED TO OPERATE IN THREE DIFFERENT WAVELENGTH RANGES WILL BE INVESTIGATED: 1, 1.5 AND 2 MICRONS. The combination of ferrofluids BASED IN NANOMATERIALS WITH Microstructured Fibres, for the development of reconfigurable OPTICAL FIBRA COMPONENTS WITH MAGNETIC CAMPO CONTROL._x000D_ OPTICA FIBRA OPTICAT OPTICAT OPTICAT OPTICAT oscillators will be mounted. ERBIO AND Tulio FOR GENERAL PULS OF picoseconds WITH MHZ REPETICATION FRECUENCES AND MW PROMEDIO POTENCES. THE POWER AMPLIFICATION STAGE WILL BE MOUNTED WITH DOUBLE-DECK FIBERS AND MULTIMODE PUMPING. THESE MOPA (MASTER OSCILLATOR POWER AMPLIFIER) SYSTEMS WILL BE COUPLED TO NONLINEAR MICROSTRUCTURED FIBERS, WITH NORMAL DISPERSION IN THE DIFFERENT WAVELENGTH RANGES CONSIDERED IN THE PROJECT, WHICH WILL BE RESPONSIBLE FOR GENERATING THE NEW FREQUENCY BANDS VIA MIX FOUR-WAVE DEGENERATED (FWM: FOUR WAVE MIXING). The PROJECT INCLUDs the Theorical Modeling of the OPTICAL FIBRA AND PROCESS FWM Layers, as well as the OPTIMISATION AND DESIGN OF the non-linear microstructured FIBRAS._x000D_ The FWM tuning technology development is an important part of the project. IN ADDITION TO THE STANDARD TECHNIQUES OF TUNING THE WAVELENGTH OF THE LASER EMISSION AND/OR THE CURVES OF DISPERSION OF THE NONLINEAR FIBERS BY TEMPERATURE AND MECHANICAL DEFORMATION, THE INFILTRATION OF MICROSTRUCTURED FIBRES WITH SPECIAL LIQUIDS, PARTICULARLY FERROFLUIDS, WILL BE INVESTIGATED. The PROJECT PRETAINING THE FWM’s tuning IN BANKS WITH A CONTROL FOR MAGNETIC CAMPO, ELECTRIC CAMPE, TEMPERATURE U OPTICO._x000D_ THE PRINCIPAL PROPOSITION OF THE PROJECT IS OTHER A SOURCE OF ROBUST LIGHT, reliable and portable, which provides synchronised peak-seconds, of two different wave lengths with a SYNONISABLE SPECTRAL SEPARATION, which covers the FRECUENCE RANGO [1000, 4000] CM-1, and a PROMEDIATE POTENCE OF more than 10 MW. THE LIGHT SOURCE WILL BE TESTED IN CARS AND SRS IMAGING SYSTEMS. OTHER PROJECT RESULTS WILL BE OPTICAL FIBER LASERS THEMSELVES, MICROSTRUCTURED FIBERS FROM NORMAL DISPERSION AT UNCONVENTIONAL WAVELENGTHS, AND RECONFIGURABLE OPTICAL FIBER COMPONENTS WITH MAGNETIC FIELD CONTROL FOR SENSOR AND MODULATION APPLICATIONS. (English) | |||||||||||||||
| Property / summary: THE OBJECTIVE OF THE PROJECT IS THE DEVELOPMENT OF LIGHT SOURCES BASED ON OPTICAL FIBER TECHNOLOGIES ADAPTED TO ADVANCED IMAGING TECHNIQUES, SUCH AS COHERENT ANTI-STOKES RAMAN SCATTERING (CARS) AND STIMULATED RAMAN SCATTERING (SRS). THE PROJECT INCLUDES THE DEVELOPMENT OF PICOSECOND OPTIC FIBER LASERS, NONLINEAR MICROSTRUCTURED FIBERS AND SPECIAL OPTICAL FIBER COMPONENTS. THE INSTALLATION OF SEVERAL SYSTEMS DESIGNED TO OPERATE IN THREE DIFFERENT WAVELENGTH RANGES WILL BE INVESTIGATED: 1, 1.5 AND 2 MICRONS. The combination of ferrofluids BASED IN NANOMATERIALS WITH Microstructured Fibres, for the development of reconfigurable OPTICAL FIBRA COMPONENTS WITH MAGNETIC CAMPO CONTROL._x000D_ OPTICA FIBRA OPTICAT OPTICAT OPTICAT OPTICAT oscillators will be mounted. ERBIO AND Tulio FOR GENERAL PULS OF picoseconds WITH MHZ REPETICATION FRECUENCES AND MW PROMEDIO POTENCES. THE POWER AMPLIFICATION STAGE WILL BE MOUNTED WITH DOUBLE-DECK FIBERS AND MULTIMODE PUMPING. THESE MOPA (MASTER OSCILLATOR POWER AMPLIFIER) SYSTEMS WILL BE COUPLED TO NONLINEAR MICROSTRUCTURED FIBERS, WITH NORMAL DISPERSION IN THE DIFFERENT WAVELENGTH RANGES CONSIDERED IN THE PROJECT, WHICH WILL BE RESPONSIBLE FOR GENERATING THE NEW FREQUENCY BANDS VIA MIX FOUR-WAVE DEGENERATED (FWM: FOUR WAVE MIXING). The PROJECT INCLUDs the Theorical Modeling of the OPTICAL FIBRA AND PROCESS FWM Layers, as well as the OPTIMISATION AND DESIGN OF the non-linear microstructured FIBRAS._x000D_ The FWM tuning technology development is an important part of the project. IN ADDITION TO THE STANDARD TECHNIQUES OF TUNING THE WAVELENGTH OF THE LASER EMISSION AND/OR THE CURVES OF DISPERSION OF THE NONLINEAR FIBERS BY TEMPERATURE AND MECHANICAL DEFORMATION, THE INFILTRATION OF MICROSTRUCTURED FIBRES WITH SPECIAL LIQUIDS, PARTICULARLY FERROFLUIDS, WILL BE INVESTIGATED. The PROJECT PRETAINING THE FWM’s tuning IN BANKS WITH A CONTROL FOR MAGNETIC CAMPO, ELECTRIC CAMPE, TEMPERATURE U OPTICO._x000D_ THE PRINCIPAL PROPOSITION OF THE PROJECT IS OTHER A SOURCE OF ROBUST LIGHT, reliable and portable, which provides synchronised peak-seconds, of two different wave lengths with a SYNONISABLE SPECTRAL SEPARATION, which covers the FRECUENCE RANGO [1000, 4000] CM-1, and a PROMEDIATE POTENCE OF more than 10 MW. THE LIGHT SOURCE WILL BE TESTED IN CARS AND SRS IMAGING SYSTEMS. OTHER PROJECT RESULTS WILL BE OPTICAL FIBER LASERS THEMSELVES, MICROSTRUCTURED FIBERS FROM NORMAL DISPERSION AT UNCONVENTIONAL WAVELENGTHS, AND RECONFIGURABLE OPTICAL FIBER COMPONENTS WITH MAGNETIC FIELD CONTROL FOR SENSOR AND MODULATION APPLICATIONS. (English) / rank | |||||||||||||||
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| Property / summary: THE OBJECTIVE OF THE PROJECT IS THE DEVELOPMENT OF LIGHT SOURCES BASED ON OPTICAL FIBER TECHNOLOGIES ADAPTED TO ADVANCED IMAGING TECHNIQUES, SUCH AS COHERENT ANTI-STOKES RAMAN SCATTERING (CARS) AND STIMULATED RAMAN SCATTERING (SRS). THE PROJECT INCLUDES THE DEVELOPMENT OF PICOSECOND OPTIC FIBER LASERS, NONLINEAR MICROSTRUCTURED FIBERS AND SPECIAL OPTICAL FIBER COMPONENTS. THE INSTALLATION OF SEVERAL SYSTEMS DESIGNED TO OPERATE IN THREE DIFFERENT WAVELENGTH RANGES WILL BE INVESTIGATED: 1, 1.5 AND 2 MICRONS. The combination of ferrofluids BASED IN NANOMATERIALS WITH Microstructured Fibres, for the development of reconfigurable OPTICAL FIBRA COMPONENTS WITH MAGNETIC CAMPO CONTROL._x000D_ OPTICA FIBRA OPTICAT OPTICAT OPTICAT OPTICAT oscillators will be mounted. ERBIO AND Tulio FOR GENERAL PULS OF picoseconds WITH MHZ REPETICATION FRECUENCES AND MW PROMEDIO POTENCES. THE POWER AMPLIFICATION STAGE WILL BE MOUNTED WITH DOUBLE-DECK FIBERS AND MULTIMODE PUMPING. THESE MOPA (MASTER OSCILLATOR POWER AMPLIFIER) SYSTEMS WILL BE COUPLED TO NONLINEAR MICROSTRUCTURED FIBERS, WITH NORMAL DISPERSION IN THE DIFFERENT WAVELENGTH RANGES CONSIDERED IN THE PROJECT, WHICH WILL BE RESPONSIBLE FOR GENERATING THE NEW FREQUENCY BANDS VIA MIX FOUR-WAVE DEGENERATED (FWM: FOUR WAVE MIXING). The PROJECT INCLUDs the Theorical Modeling of the OPTICAL FIBRA AND PROCESS FWM Layers, as well as the OPTIMISATION AND DESIGN OF the non-linear microstructured FIBRAS._x000D_ The FWM tuning technology development is an important part of the project. IN ADDITION TO THE STANDARD TECHNIQUES OF TUNING THE WAVELENGTH OF THE LASER EMISSION AND/OR THE CURVES OF DISPERSION OF THE NONLINEAR FIBERS BY TEMPERATURE AND MECHANICAL DEFORMATION, THE INFILTRATION OF MICROSTRUCTURED FIBRES WITH SPECIAL LIQUIDS, PARTICULARLY FERROFLUIDS, WILL BE INVESTIGATED. The PROJECT PRETAINING THE FWM’s tuning IN BANKS WITH A CONTROL FOR MAGNETIC CAMPO, ELECTRIC CAMPE, TEMPERATURE U OPTICO._x000D_ THE PRINCIPAL PROPOSITION OF THE PROJECT IS OTHER A SOURCE OF ROBUST LIGHT, reliable and portable, which provides synchronised peak-seconds, of two different wave lengths with a SYNONISABLE SPECTRAL SEPARATION, which covers the FRECUENCE RANGO [1000, 4000] CM-1, and a PROMEDIATE POTENCE OF more than 10 MW. THE LIGHT SOURCE WILL BE TESTED IN CARS AND SRS IMAGING SYSTEMS. OTHER PROJECT RESULTS WILL BE OPTICAL FIBER LASERS THEMSELVES, MICROSTRUCTURED FIBERS FROM NORMAL DISPERSION AT UNCONVENTIONAL WAVELENGTHS, AND RECONFIGURABLE OPTICAL FIBER COMPONENTS WITH MAGNETIC FIELD CONTROL FOR SENSOR AND MODULATION APPLICATIONS. (English) / qualifier | |||||||||||||||
point in time: 12 October 2021
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Revision as of 17:01, 12 October 2021
Project Q3164174 in Spain
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | No label defined |
Project Q3164174 in Spain |
Statements
108,295.0 Euro
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216,590.0 Euro
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50.0 percent
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30 December 2016
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29 December 2019
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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 OBJETIVO DEL PROYECTO ES EL DESARROLLO DE FUENTES DE LUZ FUNDAMENTADAS EN LAS TECNOLOGIAS DE FIBRA OPTICA ADAPTADA A TECNICAS DE IMAGEN AVANZADAS, COMO ES EL CASO DE COHERENT ANTI-STOKES RAMAN SCATTERING (CARS) AND STIMULATED RAMAN SCATTERING (SRS). EL PROYECTO INCLUYE EL DESARROLLO DE LASERES DE FIBRA OPTICA DE PICOSEGUNDOS, FIBRAS MICROESTRUCTURADAS NO LINEALES Y COMPONENTES DE FIBRA OPTICA ESPECIALES. SE INVESTIGARA EL MONTAJE DE VARIOS SISTEMAS CONCEBIDOS PARA OPERAR EN TRES RANGOS DE LONGITUD DE ONDA DIFERENTE: 1, 1.5 Y 2 MICRAS. SE ESTUDIARA LA COMBINACION DE FERROFLUIDOS BASADOS EN NANOMATERIALES CON FIBRAS MICROESTRUCTURADAS, PARA EL DESARROLLO DE COMPONENTES DE FIBRA OPTICA RECONFIGURABLES CON CONTROL POR CAMPO MAGNETICO._x000D_ SE MONTARAN OSCILADORES DE FIBRA OPTICA TIPO MODE-LOCK BASADOS EN FIBRAS DOPADAS CON ITERBIO, ERBIO Y TULIO PARA GENERAR PULSOS DE PICOSEGUNDOS CON FRECUENCIAS DE REPETICION DE MHZ Y POTENCIAS PROMEDIO DE MW. LA ETAPA DE AMPLIFICACION DE POTENCIA SE MONTARA CON FIBRAS DE DOBLE CUBIERTA Y BOMBEO MULTIMODO. ESTOS SISTEMAS MOPA (MASTER OSCILLATOR POWER AMPLIFIER) SE ACOPLARAN A LAS FIBRAS MICROESTRUCTURADAS NO LINEALES, CON DISPERSION NORMAL EN LOS DIFERENTES RANGOS DE LONGITUD DE ONDA CONSIDERADOS EN EL PROYECTO, QUE SERAN LAS RESPONSABLES DE GENERAR LAS NUEVAS BANDAS DE FRECUENCIAS VIA MEZCLA DE CUATRO ONDAS DEGENERADA (FWM: FOUR WAVE MIXING). EL PROYECTO INCLUYE LA MODELIZACION TEORICA DE LOS LASERES DE FIBRA OPTICA Y DEL PROCESO FWM, ASI COMO LA OPTIMIZACION Y DISEÑO DE LAS FIBRAS MICROESTRUCTURADAS NO LINEALES._x000D_ EL DESARROLLO DE TECNICAS DE SINTONIZACION DEL FWM ES UNA PARTE IMPORTANTE DEL PROYECTO. ADEMAS DE LAS TECNICAS ESTANDAR DE SINTONIZACION DE LA LONGITUD DE ONDA DE EMISION DEL LASER Y/O DE LAS CURVAS DE DISPERSION DE LAS FIBRAS NO LINEALES MEDIANTE TEMPERATURA Y DEFORMACION MECANICA, SE INVESTIGARA LA INFILTRACION DE LAS FIBRAS MICROESTRUCTURADAS CON LIQUIDOS ESPECIALES, PARTICULARMENTE CON FERROFLUIDOS. EL PROYECTO PRETENDE ALCANZAR LA SINTONIZACION DEL FWM EN BANDAS ANCHAS CON UN CONTROL POR CAMPO MAGNETICO, CAMPO ELECTRICO, TEMPERATURA U OPTICO._x000D_ EL PROPOSITO PRINCIPAL DEL PROYECTO ES OBTENER UNA FUENTE DE LUZ ROBUSTA, FIABLE Y PORTATIL, QUE PROPORCIONE PULSOS SINCRONIZADOS DE PICOSEGUNDOS, DE DOS LONGITUDES DE ONDA DIFERENTES CON UNA SEPARACION ESPECTRAL SINTONIZABLE, QUE CUBRA EL RANGO DE FRECUENCIAS [1000, 4000] CM-1, Y UNA POTENCIA PROMEDIO DE MAS DE 10 MW. LA FUENTE DE LUZ SE PROBARA EN SISTEMAS DE IMAGEN CARS Y SRS. OTROS RESULTADOS DEL PROYECTOS SERAN LOS LASERES DE FIBRA OPTICA EN SI MISMOS, LAS FIBRAS MICROESTRUCTURADAS DE DISPERSION NORMAL EN LONGITUDES DE ONDA NO CONVENCIONALES, Y COMPONENTES DE FIBRA OPTICA RECONFIGURABLES CON CONTROL POR CAMPO MAGNETICO PARA APLICACIONES DE SENSOR Y DE MODULACION. (Spanish)
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THE OBJECTIVE OF THE PROJECT IS THE DEVELOPMENT OF LIGHT SOURCES BASED ON OPTICAL FIBER TECHNOLOGIES ADAPTED TO ADVANCED IMAGING TECHNIQUES, SUCH AS COHERENT ANTI-STOKES RAMAN SCATTERING (CARS) AND STIMULATED RAMAN SCATTERING (SRS). THE PROJECT INCLUDES THE DEVELOPMENT OF PICOSECOND OPTIC FIBER LASERS, NONLINEAR MICROSTRUCTURED FIBERS AND SPECIAL OPTICAL FIBER COMPONENTS. THE INSTALLATION OF SEVERAL SYSTEMS DESIGNED TO OPERATE IN THREE DIFFERENT WAVELENGTH RANGES WILL BE INVESTIGATED: 1, 1.5 AND 2 MICRONS. The combination of ferrofluids BASED IN NANOMATERIALS WITH Microstructured Fibres, for the development of reconfigurable OPTICAL FIBRA COMPONENTS WITH MAGNETIC CAMPO CONTROL._x000D_ OPTICA FIBRA OPTICAT OPTICAT OPTICAT OPTICAT oscillators will be mounted. ERBIO AND Tulio FOR GENERAL PULS OF picoseconds WITH MHZ REPETICATION FRECUENCES AND MW PROMEDIO POTENCES. THE POWER AMPLIFICATION STAGE WILL BE MOUNTED WITH DOUBLE-DECK FIBERS AND MULTIMODE PUMPING. THESE MOPA (MASTER OSCILLATOR POWER AMPLIFIER) SYSTEMS WILL BE COUPLED TO NONLINEAR MICROSTRUCTURED FIBERS, WITH NORMAL DISPERSION IN THE DIFFERENT WAVELENGTH RANGES CONSIDERED IN THE PROJECT, WHICH WILL BE RESPONSIBLE FOR GENERATING THE NEW FREQUENCY BANDS VIA MIX FOUR-WAVE DEGENERATED (FWM: FOUR WAVE MIXING). The PROJECT INCLUDs the Theorical Modeling of the OPTICAL FIBRA AND PROCESS FWM Layers, as well as the OPTIMISATION AND DESIGN OF the non-linear microstructured FIBRAS._x000D_ The FWM tuning technology development is an important part of the project. IN ADDITION TO THE STANDARD TECHNIQUES OF TUNING THE WAVELENGTH OF THE LASER EMISSION AND/OR THE CURVES OF DISPERSION OF THE NONLINEAR FIBERS BY TEMPERATURE AND MECHANICAL DEFORMATION, THE INFILTRATION OF MICROSTRUCTURED FIBRES WITH SPECIAL LIQUIDS, PARTICULARLY FERROFLUIDS, WILL BE INVESTIGATED. The PROJECT PRETAINING THE FWM’s tuning IN BANKS WITH A CONTROL FOR MAGNETIC CAMPO, ELECTRIC CAMPE, TEMPERATURE U OPTICO._x000D_ THE PRINCIPAL PROPOSITION OF THE PROJECT IS OTHER A SOURCE OF ROBUST LIGHT, reliable and portable, which provides synchronised peak-seconds, of two different wave lengths with a SYNONISABLE SPECTRAL SEPARATION, which covers the FRECUENCE RANGO [1000, 4000] CM-1, and a PROMEDIATE POTENCE OF more than 10 MW. THE LIGHT SOURCE WILL BE TESTED IN CARS AND SRS IMAGING SYSTEMS. OTHER PROJECT RESULTS WILL BE OPTICAL FIBER LASERS THEMSELVES, MICROSTRUCTURED FIBERS FROM NORMAL DISPERSION AT UNCONVENTIONAL WAVELENGTHS, AND RECONFIGURABLE OPTICAL FIBER COMPONENTS WITH MAGNETIC FIELD CONTROL FOR SENSOR AND MODULATION APPLICATIONS. (English)
12 October 2021
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Paterna
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Identifiers
TEC2016-76664-C2-1-R
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