Author:
Dzurak A.S.,Kane B.E.,Clark R.G.,Lumpkin N.E.,Brien J.O',Facer G.R.,Starrett R.P.,Skougarevsky A.,Nakagawa H.,Miura N.,Rickel D.G.,Goettee J.D.,Campbell L.J.,Fowler C.M.,Mielke C.,King J.C.,Zerwekh W.D.,Clark D.,Bartram B.D.,von Ortenberg M.,Herlach F.,Yokoi H.,Bykov A.I.,Tatsenko O.M.,Platonov V.V.,Mitchell E.E.,Hermann J.,Müller K.-H.,Maranowski K.D.,Gossard A.C.
Subject
Electrical and Electronic Engineering,Condensed Matter Physics,Electronic, Optical and Magnetic Materials
Reference25 articles.
1. Theoretical aspects of superconductivity in very high magnetic fields
2. Long pulse (∼0.1 s) non-destructive magnets, under development in both Europe and the USA, will allow convenient electrical transport measurements in fields as high as 100T. See, e.g., L.J. Campbell, D.M. Parkin, D.G. Rickel, J.B. Schillig, Y. Eyssa, P. Gilmore, P. Pernambuco-Wise, H. Schneider-Muntau, Physica B 211 (1995) 52.
3. For a review of pulsed magnet capabilities and facilities worldwide, see F. Herlach, J. A.A.J. Perenboom, Physica B 211 (1995) 1.
4. Optical techniques can be extended down to frequencies ν∼100GHz, where dielectric waveguides can be used to transmit radiation to and from samples at field centre. See W.D. Zerwekh and J.D. Goettee, (RHMF 97), Physica B 246–247 (1998); and Refs. [19,20], below.
5. The results discussed here were obtained within the Dirac Series collaboration, an international program of experiments at Los Alamos National Laboratory (USA) during 1996–1997.
Cited by
8 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献