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Nola manipulatu argia nanoeskalan frekuentzia-tarte zabaletan

Nature Materials
08/05/2020

Oviedoko Unibertsitateko eta Nanomaterial eta Nanoteknologiako Ikerketa Zentroko (CINN-CSIC) ikertzaileek gidatutako nazioarteko talde batek metodo eraginkor bat aurkitu du nanoeskalan konfinatutako argiaren maiztasuna kontrolatzeko. Emaitzak duela gutxi argitaratu ziren Nature Materialsen. Kolaboratzaileen artean CIC nanoGUNE, Donostia Internatioanl Physics Center (DIPC) eta Materialen Fisika Zentroko (CFM, CSIC-UPV/EHU) euskal ikerketa-zentroetako zientzialariak daude besteak beste, Txinako Zientzien Akademia, Case Western Reserve (EE.UU.) unibertsitatea, Austriako Teknologia Institutoa, Pariseko Material Zentroa, eta Tokioko Unibertsitatearekin batera.

CIC nanoGUNE works on infrared sensing and photodetectors within GrapheneCore3

04/05/2020

The Nanooptics Group of CIC nanoGUNE is involved in the Work Package 8: Photonics and Optoelectronics in the Graphene Flagship Core 3 project, the fourth funding cycle of the €1 Billion research initiative funded by the European Commission. The mission of Work Package Photonics and Optoelectronics is to develop GRM-based components for photonic and optoelectronic applications and to integrate them into photonic circuits, imaging arrays and optical sensors. NanoGUNE works on infrared sensing and is involved in infrared and terahertz detectors.

The ENSEMBLE3 project on new photonic materials has been launched

22/01/2020

On January 13, 2019, the ceremonial inauguration of the ENSEMBLE3 project - Center of excellence for nanophotonics, advanced materials and novel crystal growth-based technologies was held.

PhD Student Mathias Charconnet, Best Paper Award

25/09/2019

Charconnet won the award on the International Conference on Optical MEMS and Nanophotonics. Congratulations!

Researchers discover directional and long-lived nanolight in a 2D material

Nanolight
25/10/2018

An international team led by researchers from Monash University (Melbourne, Australia), University of Oviedo (Asturias, Spain), CIC nanoGUNE (San Sebastián, Spain), and Soochow University (Suzhou, China) discover squeezed light ('nanolight') in the nanoscale that propagates only in specific directions along thin slabs of molybdenum trioxide – a natural anisotropic 2D material –. Besides its unique directional character, this nanolight lives for an exceptionally long time, and thus could find applications in signal processing, sensing or heat management at the nanoscale.

Argia moteltzen nanoeskalan

Eremu hurbileko mikroskopio batek jasotako polaritoiaren irudia.
15/09/2015

Hutsean, abiadura berean mugitzen da beti argia, segundoko 300 milioi metro baino gutxixeagoan. Ingurunez aldatuz gero, ordea, abiadura ere aldatu egin daiteke. "Hiperbolikoak" deritzen material oso berezi batzuetan argia nola hedatzen den ikertu dute CIC nanoGUNEn (zehazki, boro nitruroko geruza oso fin batzuetan), eta aurkikuntza hau egin dute: motelago higitzen da argia, eta "korrontearen kontra". Nature Photonics aldizkarian argitaratu dute lana Nanooptika eta Nanogailuen taldeetako ikertzaileek (Europako Batasuneko Graphene Fragship proiektuak diruz lagundu du), Bartzelonako ICFOko zenbait kiderekin batera.

Journal of Optics: Special issue on graphene nanophotonics

30/10/2013

nanoGUNE’s researcher Alexey Nikitin, in collaboration with researchers from the Imperial College (London) and the University of Zaragoza (Spain), has participated as a “guest editor” in the Special Issue on Graphene Nanophotonics published by Journal of Optics. The Special Issue focuses on the emerging Graphene nanophotonics research area, where topics on nanophotonics and the several extraordinary properties of graphene are combined.