The invention is a photon battery device for converting concentrated light into electricity. Daylight is focused into numerous individual optical waveguides which feeds the light into a Faraday Isolator which polarizes the light and prevents it from exiting the first end of the Faraday Isolator. At the second end, a large chamber collects the light where it passes a magnetic field to alter its polarization angle to prevent its reentry into the Faraday Isolator. At the second end of the large light confinement chamber the polarized light will be able to pass into the first end of a smaller light confinement chamber where a second magnetic force alters the angle of polarization so that the light will be able to be directed onto an array of optical waveguides which will focus the light onto a series of photovoltaic cells from which electricity emanates for use.

A collector for propagating incident radiation to a remote location. The collector comprises, a light directing component coupled to a buffer component, a first propagation component coupled to the buffer component and configured to transmit the incident radiation into a collector region through one of a plurality of windows, and an optical transport assembly coupled to an end of the collector region and having a second propagation component. Each light directing component is configured to redirect the incident radiation from a first direction to a second direction, and the collector region includes a plurality of regions exhibiting a refractive index value that gradually transitions from about 1.5 to about 2.0. The second propagation component is further configured to retain the incident radiation.

The present invention includes a radiation collector configured to collect incident radiation. The radiation collector includes a radiation directing component configured to redirect the incident radiation, a buffer component configured to receive the radiation redirected by the radiation directing component, and a propagation component configured to receive the radiation from the buffer component and to propagate the radiation towards a first end of the propagation component.

The present invention includes a radiation collector configured to collect incident radiation. The radiation collector includes a radiation directing component configured to redirect the incident radiation, a buffer component configured to receive the radiation redirected by the radiation directing component, and a propagation component configured to receive the radiation from the buffer component and to propagate the radiation towards a first end of the propagation component.