Q3142388 (Q3142388): Difference between revisions
Jump to navigation
Jump to search
(Changed an Item: Edited by the materialized bot - inferring region from the coordinates) |
(Created claim: summary (P836): THIS PROJECT WILL DEVELOP NEW TRANSMITTERS AND DETECTORS FOR WIRELESS COMMUNICATION SYSTEMS IN THE RANGE OF TERAHERTZ (THZ), USING FREQUENCIES BETWEEN 250 GHZ AND 350 GHZ. THIS RANGE HAS BEEN PROPOSED BY THE IEEE 802.15.3D STANDARDISATION COMMITTEE FOR USE IN WIRELESS BROADBAND POINT-TO-POINT LINKS. Our PROJECT HAVE AS OBJECTIVE TO DEVELOP TRANSMISING AND RECEPTOR MODULES, demonstrating with them an INALAMBRICAL COMMUNICATION SYSTEM TO THZ FRECU...) |
||||||||||||||
Property / summary | |||||||||||||||
THIS PROJECT WILL DEVELOP NEW TRANSMITTERS AND DETECTORS FOR WIRELESS COMMUNICATION SYSTEMS IN THE RANGE OF TERAHERTZ (THZ), USING FREQUENCIES BETWEEN 250 GHZ AND 350 GHZ. THIS RANGE HAS BEEN PROPOSED BY THE IEEE 802.15.3D STANDARDISATION COMMITTEE FOR USE IN WIRELESS BROADBAND POINT-TO-POINT LINKS. Our PROJECT HAVE AS OBJECTIVE TO DEVELOP TRANSMISING AND RECEPTOR MODULES, demonstrating with them an INALAMBRICAL COMMUNICATION SYSTEM TO THZ FRECUENCES._x000D_ THZ OBJECTIVE REQUIRED A MULTIDISCIPLINary Focus, that INVOLURE A DEVELOPMENT OF THE NIVEL OF COMPONENT HAS that OF SYSTEM, REQUIREING PHOTONIC TECHNOLOGIES, TECHNOLOGIES OF THERAHERS AND RADIATION TECHNOLOGIES AND ANTENAS. THESE COMPETENCES ARE ACHIEVED IN THIS PROJECT THROUGH COLLABORATION BETWEEN THE THREE RESEARCH GROUPS INVOLVED, THE ANTENNA GROUP (GANT) OF THE PUBLIC UNIVERSITY OF NAVARRE, THE GROUP OF RADIO FREQUENCY, ELECTROMAGNETISM, MICROWAVE AND ANTENNAS (GREMA) OF THE UNIVERSITY CARLOS III AND THE GROUP OF OPTOELECTRONICS AND LASER TECHNOLOGY (GOTL) OF THE UNIVERSITY CARLOS III, THE THREE WITH AN EXCEPTIONAL RESEARCH TRAJECTORY AND LEADERSHIP POSITION IN THEIR RESPECTIVE FIELDS. THESE GROUPS HAVE ALREADY ESTABLISHED A FRUITFUL RESEARCH COOPERATION WITHIN THE FRAMEWORK OF THE DIDACTIC PROJECT. THE THREE GROUPS COMBINE PHOTONIC SIGNAL GENERATION BY GOTL PHOTONIC INTEGRATION, GANT ELECTRONIC SYSTEMS AND GREMA ANTENNA INTEGRATION TECHNIQUES. Within this project, our employer is to announce the state of the art in the working side as in the Receiver’s._x000D_ IN THE TRANSMISER, our goal is to increase the role of the carrier by means of the development of an agricultural operation operating in RANGO terahercio. THANKS TO THE USE OF PHOTONICS SIGNAL GENERATION TECHNIQUES, THE SIGNAL WILL BE INJECTED INTO EACH OF THE RADIANT ELEMENTS BY MEANS OF A PHOTODIODE. A PHOTONIC INTEGRATED CIRCUIT WILL DELIVER THE SIGNAL TO GENERATE THE TERAHERTZ USING OPTICAL HETERODINAJE, USING AN OPTICAL DEMULTIPLEXER TO DIVIDE THE SIGNAL WITH PHASE CONTROL. The THZ-GENERAL WEEK in the photodiodes will be collected MEDIANT GUIAS OF ONDA dielectricas, DEVELOPMENT THE MONTAJE Schemas AND encapsulated OF THE COMPACTED TRANSMISER MODULO._x000D_ IN THE RECEPTOR, we have as an OBJECTIVE INcreasing the sensibility of the receipulation modulus through two different approaches. ONE APPROACH IS THE DEVELOPMENT OF ULTRA-SENSITIVE RECEIVERS BASED ON PHOTON COUNTING TECHNIQUES, DESIGNED AD-HOC FOR THIS FREQUENCY RANGE. An alternative approach is to develop coherent electronic collectors, who are benefiting from the availability of photonic sources to implement a SINTONIZABLE LOCAL OSCILATOR._x000D_ these modulus have not been developed in Europe, not in the U.S. AND JAPON WITH THE BIBLIOGRAPHIC REFERENCES REVISED HAS UPDATE. THIS IS A STEP FORWARD IN THE CURRENT STATE OF TECHNOLOGY IN THE NATIONAL AND EUROPEAN ENVIRONMENT, WHICH ENABLES SYNERGIES BETWEEN THE 2 TECHNOLOGIES TO BE STRENGTHENED: FOTONICA AND ELECTRONICA OF THE COMMUNITY SCIENTIFICATE AND POSITION THE 3 GROUPS PARTICIPATING IN THIS PROJECT AT A VERY HIGH EUROPEAN LEVEL IN VIEW OF NEW EUROPEAN PROJECT INITIATIVES UNDER THE H2020 FRAMEWORK PROGRAMME, TAKING INTO ACCOUNT THE BENEFITS OF THE EXTENSIVE NETWORK OF RESEARCH COLLABORATIONS BROUGHT TOGETHER BY THE APPLICANT GROUPS. (English) | |||||||||||||||
Property / summary: THIS PROJECT WILL DEVELOP NEW TRANSMITTERS AND DETECTORS FOR WIRELESS COMMUNICATION SYSTEMS IN THE RANGE OF TERAHERTZ (THZ), USING FREQUENCIES BETWEEN 250 GHZ AND 350 GHZ. THIS RANGE HAS BEEN PROPOSED BY THE IEEE 802.15.3D STANDARDISATION COMMITTEE FOR USE IN WIRELESS BROADBAND POINT-TO-POINT LINKS. Our PROJECT HAVE AS OBJECTIVE TO DEVELOP TRANSMISING AND RECEPTOR MODULES, demonstrating with them an INALAMBRICAL COMMUNICATION SYSTEM TO THZ FRECUENCES._x000D_ THZ OBJECTIVE REQUIRED A MULTIDISCIPLINary Focus, that INVOLURE A DEVELOPMENT OF THE NIVEL OF COMPONENT HAS that OF SYSTEM, REQUIREING PHOTONIC TECHNOLOGIES, TECHNOLOGIES OF THERAHERS AND RADIATION TECHNOLOGIES AND ANTENAS. THESE COMPETENCES ARE ACHIEVED IN THIS PROJECT THROUGH COLLABORATION BETWEEN THE THREE RESEARCH GROUPS INVOLVED, THE ANTENNA GROUP (GANT) OF THE PUBLIC UNIVERSITY OF NAVARRE, THE GROUP OF RADIO FREQUENCY, ELECTROMAGNETISM, MICROWAVE AND ANTENNAS (GREMA) OF THE UNIVERSITY CARLOS III AND THE GROUP OF OPTOELECTRONICS AND LASER TECHNOLOGY (GOTL) OF THE UNIVERSITY CARLOS III, THE THREE WITH AN EXCEPTIONAL RESEARCH TRAJECTORY AND LEADERSHIP POSITION IN THEIR RESPECTIVE FIELDS. THESE GROUPS HAVE ALREADY ESTABLISHED A FRUITFUL RESEARCH COOPERATION WITHIN THE FRAMEWORK OF THE DIDACTIC PROJECT. THE THREE GROUPS COMBINE PHOTONIC SIGNAL GENERATION BY GOTL PHOTONIC INTEGRATION, GANT ELECTRONIC SYSTEMS AND GREMA ANTENNA INTEGRATION TECHNIQUES. Within this project, our employer is to announce the state of the art in the working side as in the Receiver’s._x000D_ IN THE TRANSMISER, our goal is to increase the role of the carrier by means of the development of an agricultural operation operating in RANGO terahercio. THANKS TO THE USE OF PHOTONICS SIGNAL GENERATION TECHNIQUES, THE SIGNAL WILL BE INJECTED INTO EACH OF THE RADIANT ELEMENTS BY MEANS OF A PHOTODIODE. A PHOTONIC INTEGRATED CIRCUIT WILL DELIVER THE SIGNAL TO GENERATE THE TERAHERTZ USING OPTICAL HETERODINAJE, USING AN OPTICAL DEMULTIPLEXER TO DIVIDE THE SIGNAL WITH PHASE CONTROL. The THZ-GENERAL WEEK in the photodiodes will be collected MEDIANT GUIAS OF ONDA dielectricas, DEVELOPMENT THE MONTAJE Schemas AND encapsulated OF THE COMPACTED TRANSMISER MODULO._x000D_ IN THE RECEPTOR, we have as an OBJECTIVE INcreasing the sensibility of the receipulation modulus through two different approaches. ONE APPROACH IS THE DEVELOPMENT OF ULTRA-SENSITIVE RECEIVERS BASED ON PHOTON COUNTING TECHNIQUES, DESIGNED AD-HOC FOR THIS FREQUENCY RANGE. An alternative approach is to develop coherent electronic collectors, who are benefiting from the availability of photonic sources to implement a SINTONIZABLE LOCAL OSCILATOR._x000D_ these modulus have not been developed in Europe, not in the U.S. AND JAPON WITH THE BIBLIOGRAPHIC REFERENCES REVISED HAS UPDATE. THIS IS A STEP FORWARD IN THE CURRENT STATE OF TECHNOLOGY IN THE NATIONAL AND EUROPEAN ENVIRONMENT, WHICH ENABLES SYNERGIES BETWEEN THE 2 TECHNOLOGIES TO BE STRENGTHENED: FOTONICA AND ELECTRONICA OF THE COMMUNITY SCIENTIFICATE AND POSITION THE 3 GROUPS PARTICIPATING IN THIS PROJECT AT A VERY HIGH EUROPEAN LEVEL IN VIEW OF NEW EUROPEAN PROJECT INITIATIVES UNDER THE H2020 FRAMEWORK PROGRAMME, TAKING INTO ACCOUNT THE BENEFITS OF THE EXTENSIVE NETWORK OF RESEARCH COLLABORATIONS BROUGHT TOGETHER BY THE APPLICANT GROUPS. (English) / rank | |||||||||||||||
Normal rank | |||||||||||||||
Property / summary: THIS PROJECT WILL DEVELOP NEW TRANSMITTERS AND DETECTORS FOR WIRELESS COMMUNICATION SYSTEMS IN THE RANGE OF TERAHERTZ (THZ), USING FREQUENCIES BETWEEN 250 GHZ AND 350 GHZ. THIS RANGE HAS BEEN PROPOSED BY THE IEEE 802.15.3D STANDARDISATION COMMITTEE FOR USE IN WIRELESS BROADBAND POINT-TO-POINT LINKS. Our PROJECT HAVE AS OBJECTIVE TO DEVELOP TRANSMISING AND RECEPTOR MODULES, demonstrating with them an INALAMBRICAL COMMUNICATION SYSTEM TO THZ FRECUENCES._x000D_ THZ OBJECTIVE REQUIRED A MULTIDISCIPLINary Focus, that INVOLURE A DEVELOPMENT OF THE NIVEL OF COMPONENT HAS that OF SYSTEM, REQUIREING PHOTONIC TECHNOLOGIES, TECHNOLOGIES OF THERAHERS AND RADIATION TECHNOLOGIES AND ANTENAS. THESE COMPETENCES ARE ACHIEVED IN THIS PROJECT THROUGH COLLABORATION BETWEEN THE THREE RESEARCH GROUPS INVOLVED, THE ANTENNA GROUP (GANT) OF THE PUBLIC UNIVERSITY OF NAVARRE, THE GROUP OF RADIO FREQUENCY, ELECTROMAGNETISM, MICROWAVE AND ANTENNAS (GREMA) OF THE UNIVERSITY CARLOS III AND THE GROUP OF OPTOELECTRONICS AND LASER TECHNOLOGY (GOTL) OF THE UNIVERSITY CARLOS III, THE THREE WITH AN EXCEPTIONAL RESEARCH TRAJECTORY AND LEADERSHIP POSITION IN THEIR RESPECTIVE FIELDS. THESE GROUPS HAVE ALREADY ESTABLISHED A FRUITFUL RESEARCH COOPERATION WITHIN THE FRAMEWORK OF THE DIDACTIC PROJECT. THE THREE GROUPS COMBINE PHOTONIC SIGNAL GENERATION BY GOTL PHOTONIC INTEGRATION, GANT ELECTRONIC SYSTEMS AND GREMA ANTENNA INTEGRATION TECHNIQUES. Within this project, our employer is to announce the state of the art in the working side as in the Receiver’s._x000D_ IN THE TRANSMISER, our goal is to increase the role of the carrier by means of the development of an agricultural operation operating in RANGO terahercio. THANKS TO THE USE OF PHOTONICS SIGNAL GENERATION TECHNIQUES, THE SIGNAL WILL BE INJECTED INTO EACH OF THE RADIANT ELEMENTS BY MEANS OF A PHOTODIODE. A PHOTONIC INTEGRATED CIRCUIT WILL DELIVER THE SIGNAL TO GENERATE THE TERAHERTZ USING OPTICAL HETERODINAJE, USING AN OPTICAL DEMULTIPLEXER TO DIVIDE THE SIGNAL WITH PHASE CONTROL. The THZ-GENERAL WEEK in the photodiodes will be collected MEDIANT GUIAS OF ONDA dielectricas, DEVELOPMENT THE MONTAJE Schemas AND encapsulated OF THE COMPACTED TRANSMISER MODULO._x000D_ IN THE RECEPTOR, we have as an OBJECTIVE INcreasing the sensibility of the receipulation modulus through two different approaches. ONE APPROACH IS THE DEVELOPMENT OF ULTRA-SENSITIVE RECEIVERS BASED ON PHOTON COUNTING TECHNIQUES, DESIGNED AD-HOC FOR THIS FREQUENCY RANGE. An alternative approach is to develop coherent electronic collectors, who are benefiting from the availability of photonic sources to implement a SINTONIZABLE LOCAL OSCILATOR._x000D_ these modulus have not been developed in Europe, not in the U.S. AND JAPON WITH THE BIBLIOGRAPHIC REFERENCES REVISED HAS UPDATE. THIS IS A STEP FORWARD IN THE CURRENT STATE OF TECHNOLOGY IN THE NATIONAL AND EUROPEAN ENVIRONMENT, WHICH ENABLES SYNERGIES BETWEEN THE 2 TECHNOLOGIES TO BE STRENGTHENED: FOTONICA AND ELECTRONICA OF THE COMMUNITY SCIENTIFICATE AND POSITION THE 3 GROUPS PARTICIPATING IN THIS PROJECT AT A VERY HIGH EUROPEAN LEVEL IN VIEW OF NEW EUROPEAN PROJECT INITIATIVES UNDER THE H2020 FRAMEWORK PROGRAMME, TAKING INTO ACCOUNT THE BENEFITS OF THE EXTENSIVE NETWORK OF RESEARCH COLLABORATIONS BROUGHT TOGETHER BY THE APPLICANT GROUPS. (English) / qualifier | |||||||||||||||
point in time: 12 October 2021
|
Revision as of 13:39, 12 October 2021
Project Q3142388 in Spain
Language | Label | Description | Also known as |
---|---|---|---|
English | No label defined |
Project Q3142388 in Spain |
Statements
104,967.5 Euro
0 references
209,935.0 Euro
0 references
50.0 percent
0 references
30 December 2016
0 references
29 December 2020
0 references
UNIVERSIDAD PUBLICA DE NAVARRA
0 references
31201
0 references
ESTE PROYECTO DESARROLLARA NUEVOS TRANSMISORES Y DETECTORES PARA SISTEMAS DE COMUNICACION INALAMBRICA EN EL RANGO DE LOS TERAHERCIOS (THZ), EMPLEANDO FRECUENCIAS ENTRE 250 GHZ Y 350 GHZ. ESTE RANGO HA SIDO PROPUESTO POR EL COMITE DE ESTANDARIZACION IEEE 802.15.3D PARA SU USO EN ENLACES INALAMBRICOS PUNTO A PUNTO DE BANDA ANCHA. NUESTRO PROYECTO TIENE COMO OBJETIVO DESARROLLAR LOS MODULOS TRANSMISOR Y RECEPTOR, DEMOSTRANDO CON ELLOS UN SISTEMA DE COMUNICACION INALAMBRICA A FRECUENCIAS DE THZ._x000D_ ESTE OBJETIVO REQUIERE UN ENFOQUE MULTIDISCIPLINARIO, QUE INVOLUCRA UN DESARROLLO DESDE EL NIVEL DE COMPONENTE HASTA EL DE SISTEMA, REQUIRIENDO TECNOLOGIAS FOTONICAS, TECNOLOGIAS DE TERAHERCIOS Y TECNOLOGIAS DE RADIACION Y ANTENAS. ESTAS COMPETENCIAS SE CONSIGUEN EN ESTE PROYECTO MEDIANTE LA COLABORACION ENTRE LOS TRES GRUPOS DE INVESTIGACION INVOLUCRADOS, EL GRUPO DE ANTENAS (GANT) DE LA UNIVERSIDAD PUBLICA DE NAVARRA, EL GRUPO DE RADIOFRECUENCIA, ELECTROMAGNETISMO, MICROONDAS Y ANTENAS (GREMA) DE LA UNIVERSIDAD CARLOS III Y EL GRUPO DE OPTOELECTRONICA Y TECNOLOGIA LASER (GOTL) DE LA UNIVERSIDAD CARLOS III, LOS TRES CON UNA TRAYECTORIA DE INVESTIGACION EXCEPCIONAL Y POSICION DE LIDERAZGO EN SUS RESPECTIVOS CAMPOS. ESTOS GRUPOS YA HAN ESTABLECIDO UNA COOPERACION INVESTIGADORA FRUCTIFERA EN EL MARCO DEL PROYECTO DIDACTIC. LOS TRES GRUPOS COMBINAN LA GENERACION FOTONICA DE SEÑALES MEDIANTE INTEGRACION FOTONICA DE GOTL, LOS SISTEMAS ELECTRONICOS DE GANT Y LAS TECNICAS DE INTEGRACION DE ANTENAS DE GREMA. DENTRO DE ESTE PROYECTO, NUESTRO OBJETIVO ES AVANZAR EL ESTADO DEL ARTE TANTO EN EL LADO DEL TRANSMISOR COMO EN EL DEL RECEPTOR._x000D_ EN EL TRANSMISOR, NUESTRA META ES AUMENTAR LA POTENCIA EMITIDA MEDIANTE EL DESARROLLO DE UNA AGRUPACION DE ANTENAS OPERANDO EN RANGO TERAHERCIO. GRACIAS A LA UTILIZACION DE TECNICAS DE GENERACION DE SEÑAL FOTONICAS, SE INYECTARA LA SEÑAL EN CADA UNO DE LOS ELEMENTOS RADIANTES MEDIANTE UN FOTODIODO. UN CIRCUITO INTEGRADO FOTONICO ENTREGARA LA SEÑAL PARA GENERAR LOS TERAHERCIOS MEDIANTE HETERODINAJE OPTICO, UTILIZANDO UN DEMULTIPLEXOR OPTICO PARA DIVIDIR LA SEÑAL CON CONTROL DE LA FASE. LA ONDA DE THZ GENERADA EN LOS FOTODIODOS SE RECOGERA MEDIANTE GUIAS DE ONDA DIELECTRICAS, DESARROLLANDO LOS ESQUEMAS DE MONTAJE Y ENCAPSULADO DEL MODULO TRANSMISOR COMPACTO._x000D_ EN EL RECEPTOR, TENEMOS COMO OBJETIVO AUMENTAR LA SENSIBILIDAD DE LOS MODULOS DE RECEPCION A TRAVES DE DOS ENFOQUES DIFERENTES. UNO DE LOS ENFOQUES ES EL DESARROLLO DE RECEPTORES ULTRASENSIBLES BASADO EN TECNICAS DE CONTEO DE FOTONES, DISEÑADO AD-HOC PARA ESTE RANGO DE FRECUENCIA. UN ENFOQUE ALTERNATIVO ES DESARROLLAR RECEPTORES ELECTRONICOS COHERENTES, QUE SE BENEFICIAN DE LA DISPONIBILIDAD DE FUENTES FOTONICAS PARA APLICAR UNA SEÑAL DE OSCILADOR LOCAL SINTONIZABLE._x000D_ ESTOS MODULOS NO HAN SIDO DESARROLLADOS HASTA LA FECHA NI EN EUROPA, NI EN ESTADOS UNIDOS Y JAPON SEGUN LAS REFERENCIAS BIBLIOGRAFICAS REVISADAS HASTA LA ACTUALIDAD. ESTO CONSTITUYE UN AVANCE EN EL ESTADO DE LA TECNICA ACTUAL EN EL ENTORNO NACIONAL Y EL EUROPEO QUE PERMITE FORTALECER LAS SINERGIAS ENTRE LAS 2 TECNOLOGIAS: FOTONICA Y ELECTRONICA DE LA COMUNIDAD CIENTIFICA Y POSICIONAR LOS 3 GRUPOS PARTICIPANTES EN ESTE PROYECTO A UN NIVEL EUROPEO MUY ELEVADO DE CARA A NUEVAS INICIATIVAS DE PROYECTOS EUROPEOS DENTRO DEL PROGRAMA MARCO H2020, TENIENDO EN CUENTA LOS BENEFICIOS DE LA EXTENSA RED DE COLABORACIONES DE INVESTIGACION QUE REUNEN LOS GRUPOS SOLICITANTES. (Spanish)
0 references
THIS PROJECT WILL DEVELOP NEW TRANSMITTERS AND DETECTORS FOR WIRELESS COMMUNICATION SYSTEMS IN THE RANGE OF TERAHERTZ (THZ), USING FREQUENCIES BETWEEN 250 GHZ AND 350 GHZ. THIS RANGE HAS BEEN PROPOSED BY THE IEEE 802.15.3D STANDARDISATION COMMITTEE FOR USE IN WIRELESS BROADBAND POINT-TO-POINT LINKS. Our PROJECT HAVE AS OBJECTIVE TO DEVELOP TRANSMISING AND RECEPTOR MODULES, demonstrating with them an INALAMBRICAL COMMUNICATION SYSTEM TO THZ FRECUENCES._x000D_ THZ OBJECTIVE REQUIRED A MULTIDISCIPLINary Focus, that INVOLURE A DEVELOPMENT OF THE NIVEL OF COMPONENT HAS that OF SYSTEM, REQUIREING PHOTONIC TECHNOLOGIES, TECHNOLOGIES OF THERAHERS AND RADIATION TECHNOLOGIES AND ANTENAS. THESE COMPETENCES ARE ACHIEVED IN THIS PROJECT THROUGH COLLABORATION BETWEEN THE THREE RESEARCH GROUPS INVOLVED, THE ANTENNA GROUP (GANT) OF THE PUBLIC UNIVERSITY OF NAVARRE, THE GROUP OF RADIO FREQUENCY, ELECTROMAGNETISM, MICROWAVE AND ANTENNAS (GREMA) OF THE UNIVERSITY CARLOS III AND THE GROUP OF OPTOELECTRONICS AND LASER TECHNOLOGY (GOTL) OF THE UNIVERSITY CARLOS III, THE THREE WITH AN EXCEPTIONAL RESEARCH TRAJECTORY AND LEADERSHIP POSITION IN THEIR RESPECTIVE FIELDS. THESE GROUPS HAVE ALREADY ESTABLISHED A FRUITFUL RESEARCH COOPERATION WITHIN THE FRAMEWORK OF THE DIDACTIC PROJECT. THE THREE GROUPS COMBINE PHOTONIC SIGNAL GENERATION BY GOTL PHOTONIC INTEGRATION, GANT ELECTRONIC SYSTEMS AND GREMA ANTENNA INTEGRATION TECHNIQUES. Within this project, our employer is to announce the state of the art in the working side as in the Receiver’s._x000D_ IN THE TRANSMISER, our goal is to increase the role of the carrier by means of the development of an agricultural operation operating in RANGO terahercio. THANKS TO THE USE OF PHOTONICS SIGNAL GENERATION TECHNIQUES, THE SIGNAL WILL BE INJECTED INTO EACH OF THE RADIANT ELEMENTS BY MEANS OF A PHOTODIODE. A PHOTONIC INTEGRATED CIRCUIT WILL DELIVER THE SIGNAL TO GENERATE THE TERAHERTZ USING OPTICAL HETERODINAJE, USING AN OPTICAL DEMULTIPLEXER TO DIVIDE THE SIGNAL WITH PHASE CONTROL. The THZ-GENERAL WEEK in the photodiodes will be collected MEDIANT GUIAS OF ONDA dielectricas, DEVELOPMENT THE MONTAJE Schemas AND encapsulated OF THE COMPACTED TRANSMISER MODULO._x000D_ IN THE RECEPTOR, we have as an OBJECTIVE INcreasing the sensibility of the receipulation modulus through two different approaches. ONE APPROACH IS THE DEVELOPMENT OF ULTRA-SENSITIVE RECEIVERS BASED ON PHOTON COUNTING TECHNIQUES, DESIGNED AD-HOC FOR THIS FREQUENCY RANGE. An alternative approach is to develop coherent electronic collectors, who are benefiting from the availability of photonic sources to implement a SINTONIZABLE LOCAL OSCILATOR._x000D_ these modulus have not been developed in Europe, not in the U.S. AND JAPON WITH THE BIBLIOGRAPHIC REFERENCES REVISED HAS UPDATE. THIS IS A STEP FORWARD IN THE CURRENT STATE OF TECHNOLOGY IN THE NATIONAL AND EUROPEAN ENVIRONMENT, WHICH ENABLES SYNERGIES BETWEEN THE 2 TECHNOLOGIES TO BE STRENGTHENED: FOTONICA AND ELECTRONICA OF THE COMMUNITY SCIENTIFICATE AND POSITION THE 3 GROUPS PARTICIPATING IN THIS PROJECT AT A VERY HIGH EUROPEAN LEVEL IN VIEW OF NEW EUROPEAN PROJECT INITIATIVES UNDER THE H2020 FRAMEWORK PROGRAMME, TAKING INTO ACCOUNT THE BENEFITS OF THE EXTENSIVE NETWORK OF RESEARCH COLLABORATIONS BROUGHT TOGETHER BY THE APPLICANT GROUPS. (English)
12 October 2021
0 references
Pamplona/Iruña
0 references
Identifiers
TEC2016-76997-C3-1-R
0 references