Quantum Electrodynamics Research

Quantum Electrodynamics is the fundamental theory of electromagnetic interactions. It describes the photon as a mediator to explain the electromagnetic exchange force. It explains the behavior of photons, electrons and muons in electromagnetic fields, as a packet of radiation possessing energy. It also describes the basis of all forces between atoms and molecules, as well as electromagnetic fields on all scales from nuclear to astronomical.

Condensed Matter Physics Research

Condensed matter physics is the scientific study of macroscopic physical properties of matter. This field attempts to explain how matter changes phases while in condensed states. The condensed phases appear when the interactions of the matter are strong. Familiar condensed matter phases are solids and liquids, arising from electromagnetic bonding and forces between atoms. Unfamiliar condensed matter phases are Superconducting, ferromagnetic and antiferromagnetic phases. Superconducting phases exhibit conducting electrons with no resistance at low temperatures in materials. These materials are classified as insulators or known resistive conductors. Ferromagnetic and antiferromagnetic phases exhibit magnetostatic fields originating from electron spin orientations below their curie temperature. These materials are classified by the interactions with applied magnetic fields. Condensed matter physics is the largest field of contemporary physics, overlapping with Chemistry, Materials Science, Nanotechnology and Engineering.

Spintronics Research

Spintronics is an emerging field of study that focuses on the intrinsic spins of electrons and the associated magnetic moment in solid state physics. The science focuses on the electrons magnetic moments as the detection mechanism. It also utilizes the associated magnetostatic field for scientific purposes.