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experimental condensed matter physics

physics, phase transition behavior of novel states of matter

nuclear magnetic resonance, physics, noise limitations, applications of superconducting quantum interference devices, low-transition temperature, axion detectors, sensing of magnetically-tagged biomolecules, nondestructive evaluation

nanoscience, semiconductors, nanotechnology, physics, condensed matter physics, new properties of condensed matter systems, superconductivity, applications of BCS theory, superluminal velocities

Quantum materials, van der Waals heterostructures, superconductivity, topological phases of matter, sustainable materials

physics, theoretical condensed matter, topological phase transitions, high-temperature superconductivity, organization principles enabling microscopic degrees of freedom to behave cooperatively, matter and their formation mechanisms, low dimensional quantum magnets, strongly correlated Fermi and Bose fluids

physics, optics, electromagnetic radiation, probe condensed matter systems, light waves, transmission and reflection coefficients, high-Tc superconductors organic molecular crystals, quasiparticles, origin of superconductivity, terahertz spectroscopy

physics, condensed matter physics, fullerenes, condensed matter experiments, characterize novel materials with unusual electronic and magnetic ground states, low-dimensional and nanoscale structures, superconductors, giant magnetoresistance materials, nanotubes, graphene, boron nitride nanostructures, neural probes, NEMS.