Yeh Group

Condensed Matter Physics

Skip to content
  • News and Events
  • People
  • Research
    • Research Focuses
    • Primary Research Activities
    • Facilities
  • Teaching
    • Overview
    • Phys 135a (2017-2018) Application of QM to CMP
    • Phys 135a (2016-2017) Application of QM to CMP
    • Physics 118c (2015-2016)
  • Publications
    • All Publications
    • Low-dimensional and Nanomaterials
    • Instrumentation / Development
    • Topological Matter
    • Superconductivity
    • Other Correlated Electronic Systems
  • Other Links
    • Condensed Matter Physics at Caltech
    • Kavli Nanoscience Institute
    • Institute for Quantum Information and Matter
    • Caltech Homepage
    • Safety Education and Safe Lab Procedures

Macroscopic evidence for quantum criticality and universal field-induced quantum fluctuations in cuprate superconductors

October 25, 2007

“Macroscopic evidence for quantum criticality and universal field-induced quantum fluctuations in cuprate superconductors.” A. D. Beyer, V. S. Zapf, H. Yang, M. S. Park,K. H. Kim, S.-I. Lee, and N.-C. Yeh. Phys. Rev. B 76, 140506(R) (2007); [cond-mat/0612380].
http://journals.aps.org/prb/abstract/10.1103/PhysRevB.76.140506

Share this:

  • Click to share on Twitter (Opens in new window)
  • Click to share on Facebook (Opens in new window)

Related

Publicationsmarcus

Post navigation

← Competing orders and quantum phase fluctuations on the low-energy excitations and pseudogap phenomena of cuprate superconductors Competing orders and the doping and momentum dependent quasiparticle excitations in cuprate superconductors →

Nai-Chang Yeh

120 Bridge
California Institute of Technology
Pasadena, CA 91125
(626) 395-4313
MC 149-33

Questions?

For questions and comments, please contact:

Pages

  • Home
  • News and Events
  • People
  • Research
  • Teaching

Recent Posts

  • NEXT Low-Temperature Direct Growth of Nanocrystalline Multilayer Graphene on Silver with Long-Term Surface Passivation
  • Steve’s research on graphene for flexible and wearable electronics, featured on SEMI Global Update
  • Graphene Boosts Flexible and Wearable Electronics – Research featured on Caltech News
  • Graphene on Nanoscale-Thick Au Films: Implications for Anticorrosion in Smart Wearable Electronics
  • Control of trion-to-exciton conversion in monolayer WS2 by orbital angular momentum of light

© 2023 Nai-Chang Yeh | Built by EE Web Design