Abstract: A ferroelectric nanoparticle capacitor-device comprises a pair of conductive elements electrically insulated from each other, and ferroelectric nanoparticles arranged between the conductive elements of the pair. The ferroelectric nanoparticles are adapted to provide at least three polarization states with different total ferroelectric polarizations.

Abstract: A ferroelectric nanoparticle capacitor-device comprises a pair of conductive elements electrically insulated from each other, and ferroelectric nanoparticles arranged between the conductive elements of the pair. The ferroelectric nanoparticles are adapted to provide at least three polarization states with different total ferroelectric polarizations.

Abstract: A method employs a device with a heterostructure as a resonator for electrons of an electrical circuit or for a terahertz electromagnetic wave. The heterostructure comprises at least one dielectric layer and at least one ferroelectric layer. The at least one ferroelectric layer comprises a plurality of ferroelectric polarization domains. The plurality of ferroelectric polarization domains forms a polarization pattern. The polarization pattern is adapted to perform an oscillation with a resonance frequency in a terahertz frequency range. The method comprises functionally coupling the oscillation of the polarization pattern and an oscillation of the electrons of the electrical circuit or of the terahertz electromagnetic wave by the device.

Abstract: A field effect transistor has a negative capacitance gate structure. The field effect transistor comprises a channel and a gate dielectric arranged over the channel. The negative capacitance gate structure comprises a bottom electrode structure comprising a bottom electrode, a multi-domain structure, and a top electrode structure. The multi-domain structure comprises a multi-domain element arranged over the bottom electrode, the multi-domain element comprising a plurality of topological domains and at least one topological domain wall. The top electrode structure comprises a top electrode arranged over the multi-domain element. At least a section of the bottom electrode structure of the negative capacitance gate structure is arranged over the gate dielectric and adapted to be coupled to the channel through the gate dielectric.

Abstract: A method employs a device with a heterostructure as a resonator for electrons of an electrical circuit or for a terahertz electromagnetic wave. The heterostructure comprises at least one dielectric layer and at least one ferroelectric layer. The at least one ferroelectric layer comprises a plurality of ferroelectric polarization domains. The plurality of ferroelectric polarization domains forms a polarization pattern. The polarization pattern is adapted to perform an oscillation with a resonance frequency in a terahertz frequency range. The method comprises functionally coupling the oscillation of the polarization pattern and an oscillation of the electrons of the electrical circuit or of the terahertz electromagnetic wave by the device.

Abstract: An apparatus for phase detection of Raman scattered light emitted from a sample includes a first polarizer positioned along a first optical path containing a first beam and a second polarizer positioned along a second optical path containing a second beam. The first polarizer and second polarizer polarize the first beam and the second beam in one of mutually perpendicular and mutually parallel first and second directions. The apparatus also includes an optical phase modulator positioned along the second optical path to controllably modulate a phase of the second beam, a beam splitter positioned to join the first beam and the second beam together, and a spectrometer to receive the joined first beam and second beam and to measure a phase shift of the first beam and the second beam.

Abstract: An apparatus for phase detection of Raman scattered light emitted from a sample includes a first polarizer positioned along a first optical path containing a first beam and a second polarizer positioned along a second optical path containing a second beam. The first polarizer and second polarizer polarize the first beam and the second beam in one of mutually perpendicular and mutually parallel first and second directions. The apparatus also includes an optical phase modulator positioned along the second optical path to controllably modulate a phase of the second beam, a beam splitter positioned to join the first beam and the second beam together, and a spectrometer to receive the joined first beam and second beam and to measure a phase shift of the first beam and the second beam.