Kelly Research Technologies is a second generation family business dedicated to the research, manufacturing and distribution of top quality scalar and phase conjugate technologies used by radionic, psychotronic and “subtle energy” researchers and practitioners worldwide. Headquartered in Lakemont for maximum manufacturing excellence.
Scalar and Phase Conjugate Analyzers
Since 1978, Kelly Research Technologies – a second generation family business located in Lakemont, GA – has provided top-quality radionic instruments for use by practitioners of radionics, psychotronics and other subtle energy research and practices. Their manufacturing facility stands as a beacon of manufacturing excellence.
SCALAR VORTEX CORONAGOGS (SVCs) use a spiral phase pattern to shape the wavefront entering them, redirecting starlight outside of Lyot stop and providing high contrast imaging of off-axis planetary light sources. While vector vortex coronagraphs depend on geometric phase modulation for this task, SVCs utilize spatially variable surface relief structures modulate longitudinal phase modulation instead. This allows them to function equally well for both orthogonal polarization states without additional polarization optics or additional polarization optics being required.
Phase Conjugate Energy Analyzers
Kelly Research Technologies is a second generation family business committed to the manufacturing and distribution of top quality scalar and phase conjugate energy instruments used by researchers and practitioners of radionic, psychotronic and other “subtle energy” practices. We take great pride in our products and strive for manufacturing excellence at our Lakemont, GA facility; its walls a testament to hard work and unfaltering dedication that defines us.
Four-Wave Mixing (SBS), also known as optical phase conjugation, creates a beam which is both retroreflective and phase reversal at its point of reflection. This effect can be achieved by directing two contradirectional laser beams 2 and 4 into an optical mixing medium from opposite directions, followed by another laser beam EI that has equal frequency but comes from another source into this same medium from yet another angle.
Interaction among these three beams leads to the formation of a Bragg grating within the crystal, producing a phase conjugate output beam that is both retro-reflective and counterpropagating with respect to its input object wave. Phase conjugation has been observed in various devices such as Brillouin-enhanced four-wave mixing, stimulated Raman scattering and photon echo devices.
An innovative self-pumped phase conjugate mirror and method have been created that allows this phenomenon to be employed with photorefractive materials that normally have electro-optic coefficients too low for inherent self-pumping of phase conjugation. An alternating electric field is applied across a crystal made from photorefractive material to achieve an index grating shift of 90deg and boost crystal gain to levels at which self-pumped phase conjugation takes place.
