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About the Journal

Aims & Scope

MPLB is a peer reviewed, hybrid open-access journal which provides a channel for fast circulation of the most important and latest research findings in Condensed Matter Physics, Statistical Physics, as well as Atomic, Molecular and Optical Physics. It publishes original articles and short reports with length limitation. A strong emphasis is placed on topics of current interest such as cold atoms and molecules, new topological materials and phases, and novel low-dimensional materials.

The journal also contains a Brief Reviews section with the purpose of publishing short papers on the latest experimental findings and current important theoretical developments.

Subject areas suitable for publication include, but are not limited to the following fields:

Condensed Matter Physics:

  • Complex fluids
  • Electronic structure and properties of the materials
  • Ferroelectric and multiferroics
  • Ferromagnetism and materials
  • Gan
  • Graphene
  • High-temperature superconductivity
  • Low Dimensional Materials and Systems
  • Liquid crystals and polymers
  • Many-body physics
  • Magnetism
  • Metamaterials
  • MoS2
  • Nanoscience
  • Photonics and metamaterials
  • Quantum magnetism
  • Quantum numerical simulation
  • Quantum phenomena in complex condensed matter
  • Superconductivity
  • Spintronics
  • Spin glasses
  • Solid state physics
  • Soft matter, biophysics, and liquids
  • Structure of matter, phase transitions
  • Strong correlation
  • Surfaces and interfaces
  • Topological insulators
  • Topological states and phases of materials
  • Computational physics

Atomic, Molecular, and Optical Physics:

  • Aspects of spectroscopy
  • Coherent states
  • Non-linear optics
  • Laser physics
  • Luminescence
  • Optics and photonics
  • Optical metrology, atomic clocks, and frequency combs
  • Quantum chemistry
  • Quantum optics and photonics
  • Quantum information
  • Radiation and scattering
  • Ultracold atoms

Statistical Physics:

  • Averaging instead of Maximization
  • Application to Radiation (Light Quanta)
  • Bose–Einstein Condensates
  • Electrons in Metals
  • Equilibrium systems
  • Entropy
  • Exact Form of Distribution Functions
  • Exactly solvable models
  • Non-equilibrium systems
  • Quantum Statistics
  • Statistical Mechanics
  • Statistical Thermodynamics