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Optically-induced charge separation and induced magnetism in dielectrics for optical energy conversion and intense magnetic field generation

US9274045B2 · US · B2

Patent metadata
FieldValue
Publication numberUS-9274045-B2
Application numberUS-201113810621-A
CountryUS
Kind codeB2
Filing dateMay 16, 2011
Priority dateMay 14, 2010
Publication dateMar 1, 2016
Grant dateMar 1, 2016

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  1. Title

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  2. Abstract

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  3. Assignees and inventors

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  4. Key dates

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  5. First independent claim

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  6. CPC / IPC classifications

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  7. Citations and related patents

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Abstract

Official abstract text for this publication.

Schemes are described to produce quasi-static charge separation, Terahertz radiation, and programmable magnetic field generation using linearly-polarized light in unbiased, transparent insulators. The methods exploit a recently-observed magneto-electric optical nonlinearity that produces intense magnetization in undoped, homogeneous dielectrics. Analysis reveals that strong magnetic effects can be induced at modest optical intensities even with incoherent light. Consequently, efficient solar power conversion is feasible without the semiconductor processing or electron-hole pair generation that is required in conventional photovoltaic cells. Additionally, conditions and techniques are described to generate intense THz radiation in unbiased substrates and large magnetic fields orientated transverse to the direction of propagation of light, without the need for any external permanent magnetic or electromagnetic apparatus.

First claim

Opening claim text (preview).

What is claimed: 1. An optically-pumped AC current or voltage source comprising: a non-conducting transparent substrate; a laser source coupled to supply a laser output into the substrate, the laser output having an intensity above a threshold for inducing saturated dipole magnetization in the substrate; a switch for switching the direction of propagation of the laser output supplied to the substrate between a forward direction and a backward direction propagating through the substrate, at a rate Ω; and a circuit coupled across the substrate to receive and convert an electrical AC charge oscillation, generated by the laser output supplied to the substrate, into a DC current for supplying a load. 2. The AC current or voltage source of claim 1 , the circuit comprising a rectifier circuit and a charge storage medium coupled to the rectifier circuit for storage of a DC voltage. 3. The AC current or voltage source of claim 1 , wherein the laser output is linearly polarized. 4. The AC current or voltage source of claim 1 , wherein the substrate is formed of CCl 4 and the threshold intensity, I, for inducing saturated dipole magnetization is I>10 8 W/cm 2 . 5. The AC current or voltage source of claim 1 , wherein the laser output has an intensity level sufficient to maximize charge separation in the substrate. 6. The AC current or voltage source of claim 1 , wherein the substrate is an insulating type of glass, polymer, liquid, crystal, ceramic, nano-composite or artificially structured material. 7. The AC current or voltage source of claim 6 , wherein the artificially structured material is a metamaterial, photonic bandgap material, an electrically-poled medium, magnetically-poled medium, or some combination of the four materials recited.

Assignees

Inventors

Classifications

  • G02F1/3534

    Three-wave interaction, e.g. sum-difference frequency generation (G02F1/3532 takes precedence) · CPC title

  • H02J7/022

    Electricity · mapped topic

  • G02F2203/13

    involving THZ radiation · CPC title

  • G01N21/21Primary

    Polarisation-affecting properties (G01N21/19 takes precedence) · CPC title

  • G02F1/09

    based on magneto-optical elements, e.g. exhibiting Faraday effect · CPC title

Patent family

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View patent family 44914742

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Frequently asked questions

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What does patent US9274045B2 cover?
Schemes are described to produce quasi-static charge separation, Terahertz radiation, and programmable magnetic field generation using linearly-polarized light in unbiased, transparent insulators. The methods exploit a recently-observed magneto-electric optical nonlinearity that produces intense magnetization in undoped, homogeneous dielectrics. Analysis reveals that strong magnetic effects can…
Who is the assignee on this patent?
Rand Stephen C, Fisher William M, Univ Michigan
What technology area does this patent fall under?
Primary CPC classification G01N21/21. Mapped technology areas include Physics.
When was this patent published?
Publication date Tue Mar 01 2016 00:00:00 GMT+0000 (Coordinated Universal Time) (B2). Legal status and post-grant events are not shown on this page.
What related patents are in patentsdb?
We list 8 related publications on this page (citations in our corpus or others sharing the same primary CPC).