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A new magnetoresistance effect occurring in materials with strong spin-orbit coupling

26/01/2016

Researchers of the Nanodevices group, in collaboration with groups from the CFM and DIPC, both institutions also located in Donostia-San Sebastián, have discovered a new magnetoresistance effect occurring in materials with strong spin-orbit coupling. This new effect has been recently reported in the prestigious journal Physical Review Letters and featured as an Editor’s Suggestion.

Nanozientzia komiki bidez

nanoKOMIK
26/01/2016

CIC nanoGUNE eta Donostia International Physics Center (DIPC) ikerketa-zentroek, zeinak nanozientzian eta materialen zientzian baitaude espezializatuta, nanofikziozko lehen komiki partaidetzazkoa sortzea, egitea eta hedatzea proposatzen dute, 2016an, nanoKOMIK proiektuaren bidez.

Nanoingeniaritzan oinarritutako diagnostiko biomedikoko tresna berriak

01/12/2015

NanoGUNEko Nanoingenieritza Taldeak, Andreas Seifert doktorea eta Ikerbasque ikertzailea buru duela, oinarrizko nanozientziaren eta ingeniaritza aplikatuaren arteko jakintza-arloak ikertzen ditu, bereziki mikrosistema biomedikoen arloa. Taldearen helburua da zientzia fisikoen eta aplikazio industrialen zein klinikoen arteko zubiak eraikitzea nanoteknologia erabiliz, mikrosistema mediko eta gailu mesoskopiko berriei balio erantsia emateko.

NbSe2, a true 2D superconductor

05/11/2015

An international team led by Miguel M. Ugeda (CIC nanoGUNE) and Michael F. Crommie (UC. Berkeley (USA)) has demonstrated the coexistence of superconductivity and charge density wave (CDW) order in a single layer of NbSe2, a model transition metal dichalcogenide (TMD) metal. The demonstration that a single layer of NbSe2 is a true 2D superconductor is a breakthrough in the field of 2D materials. Very few 2D superconductors exist in nature, and single-layer NbSe2 is the first among them that remains a superconductor in its isolated, 2D form without the need of a special substrate. Furthermore, CDW order - spatial modulation of both the electron density and the atomic lattice (see figure below) – has been revealed to be a genuine 2D electronic phenomenon in NbSe2. This work has been recently reported in Nature Physics.

Magneto-optics on the edge

02/11/2015

In an article published and featured as an Editors’ suggestion in Physical Review Letters last week (PRL 115, 187403 (2015)), researchers from the Nanomagnetism group at nanoGUNE in collaboration with a team from the University of Cantabria and the University of Hamburg have reported on a massive increase of magneto-optical effects near the edges of nano-scale disks, where enhancements of over 1000% can be produced.

Interview with Dr. Berger published on JPhys+

30/10/2015

An interview with Dr. Andreas Berger, nanoGUNE´s research director, has been published on JPhys+, the physics blog from IOP Publishing in the UK. The interview is part of a series of interviews that JPhys+ has conducted during this year with editors of the Journal of Physics Series, and revolves around the research work done by the editors themselves as well as science in general.

nanoGUNEk bere bosgarren spin-offa jarri du martxan

08/10/2015

Prospero Biosciences enpresak teknologia berritzaile bat garatuko du, masa-espektrometriaren industrian aplikazio-eremu berri bat irekitzeko gai dena. Besteak beste, markatzaile biologikoen ikerketan aurrerapauso esanguratsuak emateko aukera emango du.

nanoGUNE and its spin-offs will be represented at the Nanomercosur event

nanomercosur
02/10/2015

The 5th edition of Nanomercosur is taking place from 6 to 8 October in Buenos Aires, Argentina, and nanoGUNE and its spin-off companies will be represented in the Brokerage event and the nanoBasque space of the exhibition area. 

Piero Brovetto 2015 saria eman diote Nicolò Maccaferriri

Nicolò Maccaferri magnetooptikako laborategian lanean, nanoGUNEn.
29/09/2015

Nicolò Maccaferri nanoGUNEko doktoretza aurreko ikertzaileari eman diote Piero Brovetto 2015 saria, “nanomagnetismoaren eta nanooptikaren arloetan egin dituen ekarpenengatik eta, bereziki, nanoegitura magnetiko erresonanteen propietate magnetoplasmonikoak ikertzeagatik”.

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.

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