Large scale micro-structured optical second harmonic generation response imprinted on glass surface by thermal poling | Zendy

Guang Yang | Zendy; Marc Dussauze | Zendy; Vincent Rodriguez | Zendy; F. Adamietz | Zendy; Nicolas Marquestaut | Zendy; K. L. N. Deepak | Zendy; David Grojo | Zendy; O. Utéza | Zendy; Ph. Delaporte | Zendy; Thierry Cardinal | Zendy; E. Fargin | Zendy

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Large scale micro-structured optical second harmonic generation response imprinted on glass surface by thermal poling

Author(s) -

Guang Yang,

Marc Dussauze,

Vincent Rodriguez,

F. Adamietz,

Nicolas Marquestaut,

K. L. N. Deepak,

David Grojo,

O. Utéza,

Ph. Delaporte,

Thierry Cardinal,

E. Fargin

Publication year - 2015

Publication title -

journal of applied physics

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.699

H-Index - 319

eISSN - 1089-7550

pISSN - 0021-8979

DOI - 10.1063/1.4926866

Subject(s) - poling , materials science , second harmonic generation , optoelectronics , thermal , anode , silicon , electrode , electric field , optics , ferroelectricity , chemistry , laser , physics , quantum mechanics , meteorology , dielectric

International audienceMicro-structured second harmonic generation responses have been achieved on borophosphate niobium glasses by thermal poling using micro-patterned silicon substrates. The poling imprinting process has created sub-micrometer sized patterns of both surface relief and second order optical responses on the anode glass surface. Field enhancement effects within the micro structured electrode are believed to govern the charge density on the glass surface during the process and thus amplitudes of both implemented electric field and Maxwell stresses

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