Call for Abstract

International Conference and Exhibition on Mesoscopic and Condensed Matter Physics, will be organized around the theme “Highlighting and Focusing on Future Prospects in Condensed Matter Physics”

Condensed Matter Physics 2015 is comprised of 10 tracks and 55 sessions designed to offer comprehensive sessions that address current issues in Condensed Matter Physics 2015.

Submit your abstract to any of the mentioned tracks. All related abstracts are accepted.

Register now for the conference by choosing an appropriate package suitable to you.

  • Track 3-1Development of semiconductor transistor
  • Track 3-2Nanotechnology
  • Track 3-3Graphene and its remarkable features
  • Track 3-4Next generation electronics- Gallium Nitride (GaN)
  • Track 3-5Quantum computation
  • Track 3-6Electronic, thermodynamic, magnetic and spintronic properties
  • Track 3-7Magnetic resonance imaging
  • Track 3-8Laser Technology
  • Track 4-1Solid, liquid and gas
  • Track 4-2Bose–Einstein condensate
  • Track 4-3Bose gas and Fermi gas
  • Track 4-4Fermionic condensate
  • Track 4-5Fermi liquid
  • Track 4-6Supersolid and superfluidity
  • Track 4-7Luttinger liquid
  • Track 5-1Order parameter
  • Track 5-2Phase transition
  • Track 5-3Quantum hall effect
  • Track 5-4Spin hall effect
  • Track 5-5Kondo effect
  • Track 6-1Electronic band structure
  • Track 6-2Conductor, insulator and Mott insulator
  • Track 6-3Semiconductor and superconductor
  • Track 6-4Concept of semi-metal
  • Track 6-5Thermoelectric, piezoelectric and ferroelectric
  • Track 6-6Strongly correlated electron system
  • Track 7-1Diamagnet and superdiamagnet
  • Track 7-2Paramagnet and superparamagnet
  • Track 7-3Ferromagnet
  • Track 7-4Antiferromagnet
  • Track 7-5Metamagnet
  • Track 7-6Spin glass
  • Track 7-7Many-body electromagnetic (EM) wave scattering
  • Track 8-1Concept of quasiparticles and soft matter
  • Track 8-2Phonon, exciton, plasmon and polariton
  • Track 8-3Polaron and magnon
  • Track 8-4Amorphous solid
  • Track 8-5Granular material
  • Track 8-6Crystals: Its formation, types and characteristics
  • Track 8-7Polymer
  • Track 9-1Concept of quantum optics
  • Track 9-2Nonlinear optics and ultrafast lasers
  • Track 9-3Finite-flux effects
  • Track 9-4Basic micromaser theory and the phase structure of the micromaser system
  • Track 9-5Relativistic quantum mechanics of single photon
  • Track 9-6Ultracold atoms
  • Track 9-7Photon detection theory
  • Track 9-8Black body radiation
  • Track 9-9The photoelectric effect
  • Track 9-10Photonic materials and resonant optical structures
  • Track 10-1Conductive organic material
  • Track 10-2Organic light-emitting diode (OLED) and its applications
  • Track 10-3Organic field-effect transistor (OFET)
  • Track 10-4Organic electronic devices and solar cell
  • Track 10-5Plastic electronics and its applications