Faculty Mentor: Dr. Robert Ryan Project Supervisor: Dr. George
... electrical energy into mechanical energy (piezoelectric in ferroelectric materials) and conversion of magnetic energy into mechanical energy (magnetostriction in ferromagnetic materials) to create multiferroic composite materials. In multiferroic composite materials, indirect coupling between electr ...
... electrical energy into mechanical energy (piezoelectric in ferroelectric materials) and conversion of magnetic energy into mechanical energy (magnetostriction in ferromagnetic materials) to create multiferroic composite materials. In multiferroic composite materials, indirect coupling between electr ...
Magnetism and Matter
... magnetic permeability of space. The quantity M in this relationship is called the magnetization of the material. The magnetization vector, M can be defined as the magnetic dipole moment per unit volume. For some materials the magnetization M is proportional to the magnetic intensity H. This constant ...
... magnetic permeability of space. The quantity M in this relationship is called the magnetization of the material. The magnetization vector, M can be defined as the magnetic dipole moment per unit volume. For some materials the magnetization M is proportional to the magnetic intensity H. This constant ...
oA3 MANIPULATING RESONANT MODES AT THE SUB
... typical material, it is included the contribution of charge carrier concentrations, N in the range 3x1019 5x1020cm-3. In this way, the interaction produced between matter and light is controlled differently than silver, gold which are commonly used in plasmonic field. In Barnes work, it has been con ...
... typical material, it is included the contribution of charge carrier concentrations, N in the range 3x1019 5x1020cm-3. In this way, the interaction produced between matter and light is controlled differently than silver, gold which are commonly used in plasmonic field. In Barnes work, it has been con ...
