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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.

nanoGUNE PhD Workshop 2020

29/01/2020

The PhD researchers of nanoGUNE have organized a one-day event to celebrate the 11th anniversary of nanoGUNE. The workshop has consisted of three sessions: Spin-off inside and outside of nanoGUNE, Escape the lab, and a poster session.

Unibertsitateko ikasleek udako praktikak egiteko deialdi berria egin du CIC nanoGUNEk

Summer Internships
08/01/2020

CIC nanoGUNEk Udako Praktika Programan parte hartzeko urteroko deialdia zabaldu berri du; aukera paregabea eskaintzen die unibertsitateko ikasleei, punta-puntako ikerketa-zentro bateko jarduera bertatik bertara ezagutzeko.

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.

Apply for a Basque PhD grant with nanoGUNE

31/05/2018

NanoGUNE, located at the Ibaeta Campus of the UPV/EHU in Donostia – San Sebastián, offers PhD opportunities to graduates in Physics, Chemistry, Engineering, Biology, and related areas to get their PhD degree.

Phononic SEIRA - Enhancing light-molecule interactions via crystal lattice vibrations

03/04/2018

Researchers from CIC-nanoGUNE (San Sebastián, Spain), in collaboration with the Donostia International Physics Center (San Sebastián, Spain), Materials Physics Center (CFM, CSIC-UPV/EHU, San Sebastián, Spain) and University of Oviedo demonstrate a new way to strongly couple infrared light and molecular vibrations, by utilizing phonon polariton nanoresonators made of hexagonal boron nitride, a Van der Waals material. The results published in Light: Science & Applications open new avenues for fundamental studies of vibrational strong coupling, as well as for the development of novel infrared sensors for chemical recognition of very small amounts of molecules.

Argia “hankaz gora” jarri du euskal ikertzaile-talde batek

23/02/2018

CIC nanoGUNEko ikertzaile batzuek, Donostia International Physics Centerrekin (DIPC) eta Kansas Estatuko Unibertsitatearekin (AEB) lankidetzan, “metagainazal hiperboliko” izeneko gainazalaren garapena argitaratu dute Science aldizkari ospetsuan. Gainazal horretatik, argi-uhinak forma erabat ezohikoekin hedatzen dira. Argia doitasun handiagoz kontrolatzeko eta monitorizatzeko bidean erdietsitako lorpen zientifiko hori garrantzitsua da oso, seinaleak detektatzeko eta prozesatzeko gailu optikoak miniaturizatzeko erronka teknologikoan aurrera egiteko

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