Patent · US Active

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

US9274045B2 · kind B2 · utility

1Cited by

4References

7Claims

0Family size

Assignee

THE REGENTS OF THE UNIVERSITY OF MICHIGAN · US

Inventors

Stephen C. Rand · Ann Arbor, US
William M. Fisher · New York, US

Key dates

Filing date	May 16, 2011
Grant date	Mar 1, 2016
Priority date	—
Expiry date	Sep 21, 2032

Classification

Technology area (CPC Y)Emerging Cross-Sectional Technologies
CPC primaryY02E10/56
WIPO fieldMeasurement
WIPO sectorInstruments

Abstract

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.

Source: USPTO / EPO open patent data. Objective bibliographic and citation counts.