In physics, photon-induced electric field poling is a phenomenon whereby a pattern of local electric field orientations can be encoded in a suitable ferroelectric material, such as perovskite. The resulting encoded material is conceptually similar to the pattern of magnetic field orientations within the magnetic domains of a ferromagnet, and thus may be considered as a possible technology for computer storage media. The encoded regions are optically active (have a varying index of refraction) and thus may be "read out" optically.
Encoding processedit
The encoding process proceeds by application of ultraviolet light tuned to the absorption band associated with the transition of electrons from the valence band to the conduction band. During UV application, an external electric field is used to modify the electric dipole moment of regions of the ferroelectric material that are exposed to UV light. By this process, a pattern of local electric field orientations can be encoded.
Technically, the encoding effect proceeds by the creation of a population inversion between the valence and conduction bands, with the resulting creation of plasmons. During this time, ferroelectricperovskite materials can be forced to change geometry by the application of an electric field. The encoded regions become optically active due to the Pockels effect.
Decoding processedit
The pattern of ferroelectric domain orientations can be read out optically. The refractive index of the ferroelectric material at wavelengths from near-infrared through to near-ultraviolet is affected by the electric field within the material. A changing pattern of electric field domains within a ferroelectric substrate results in different regions of the substrate having different refractive indices. Under these conditions, the substrate behaves as a diffraction grating, allowing the pattern of domains to be inferred from the interference pattern present in the transmitted readout beam.
References discussing techniques described in this articleedit
Müller, Manfred; Soergel, Elisabeth; Buse, Karsten (2003). (PDF). Applied Physics Letters. AIP Publishing. 83 (9): 1824–1826. Bibcode:2003ApPhL..83.1824M. doi:10.1063/1.1606504. ISSN 0003-6951. S2CID 118643463. Archived from the original (PDF) on 2011-07-16.
Kapphan, S. E.; Kislova, I.; Wierschem, M.; Lindemann, T.; Gao, M.; Pankrath, R.; Vikhnin, V. S.; Kutsenko, A. B. (2003). (PDF). Radiation Effects and Defects in Solids. Informa UK Limited. 158 (1–6): 357–362. doi:10.1080/1042015021000052656. ISSN 1042-0150. S2CID 95403481. Archived from the original (PDF) on 2012-02-04.
References describing related techniquesedit
Grachev, Alexander I.; Kamshilin, Alexei A. (2005). "Electric polarization induced by optical orientation of dipolar centers in non-polar piezoelectrics". Optics Express. The Optical Society. 13 (21): 8565. Bibcode:2005OExpr..13.8565G. doi:10.1364/opex.13.008565. ISSN 1094-4087.
Anna Fragemann (2005). Optical Parametric Amplification with Periodically Poled KTiOPO4 (doctoral). Stockholm, Sweden: Department of Physics, Royal Institute of Technology.
Sangalli, P.; Giulotto, E.; Rollandi, L.; Calvi, P.; Camagni, P.; Samoggia, G. (1998-03-15). "Photoinduced electronic transport in K1−xLixTaO3". Physical Review B. American Physical Society (APS). 57 (11): 6231–6234. Bibcode:1998PhRvB..57.6231S. doi:10.1103/physrevb.57.6231. ISSN 0163-1829.
Other articles about ferroelectric data storageedit
"Tiny Bubbles in Nanofilms",
Bo-Kuai Lai, Inna Ponomareva, Ivan Naumov, Igor Kornev, Huaxiang Fu, Laurent Bellaiche, and Greg Salamo, press release, University of Arkansas, 16 Mar. 2006
December 20, 2023
photon, induced, electric, field, poling, topic, this, article, meet, wikipedia, general, notability, guideline, please, help, demonstrate, notability, topic, citing, reliable, secondary, sources, that, independent, topic, provide, significant, coverage, beyon. The topic of this article may not meet Wikipedia s general notability guideline Please help to demonstrate the notability of the topic by citing reliable secondary sources that are independent of the topic and provide significant coverage of it beyond a mere trivial mention If notability cannot be shown the article is likely to be merged redirected or deleted Find sources Photon induced electric field poling news newspapers books scholar JSTOR August 2012 Learn how and when to remove this template message In physics photon induced electric field poling is a phenomenon whereby a pattern of local electric field orientations can be encoded in a suitable ferroelectric material such as perovskite The resulting encoded material is conceptually similar to the pattern of magnetic field orientations within the magnetic domains of a ferromagnet and thus may be considered as a possible technology for computer storage media The encoded regions are optically active have a varying index of refraction and thus may be read out optically Encoding process editThe encoding process proceeds by application of ultraviolet light tuned to the absorption band associated with the transition of electrons from the valence band to the conduction band During UV application an external electric field is used to modify the electric dipole moment of regions of the ferroelectric material that are exposed to UV light By this process a pattern of local electric field orientations can be encoded Technically the encoding effect proceeds by the creation of a population inversion between the valence and conduction bands with the resulting creation of plasmons During this time ferroelectric perovskite materials can be forced to change geometry by the application of an electric field The encoded regions become optically active due to the Pockels effect Decoding process editThe pattern of ferroelectric domain orientations can be read out optically The refractive index of the ferroelectric material at wavelengths from near infrared through to near ultraviolet is affected by the electric field within the material A changing pattern of electric field domains within a ferroelectric substrate results in different regions of the substrate having different refractive indices Under these conditions the substrate behaves as a diffraction grating allowing the pattern of domains to be inferred from the interference pattern present in the transmitted readout beam See also editElectro optic effect Birefringence Holographic memory Magneto optic effectReferences editReferences discussing techniques described in this article edit Muller Manfred Soergel Elisabeth Buse Karsten 2003 Influence of ultraviolet illumination on the poling characteristics of lithium niobate crystals PDF Applied Physics Letters AIP Publishing 83 9 1824 1826 Bibcode 2003ApPhL 83 1824M doi 10 1063 1 1606504 ISSN 0003 6951 S2CID 118643463 Archived from the original PDF on 2011 07 16 Kapphan S E Kislova I Wierschem M Lindemann T Gao M Pankrath R Vikhnin V S Kutsenko A B 2003 Light Induced Polaronic Absorption at Low Temperature in Pure and Fe Ce Cr Doped SrxBa1 xNb2O6 or Ba1 xCaxTiO3 Crystals and Photodissociation of Vis Centers Into Small Polarons PDF Radiation Effects and Defects in Solids Informa UK Limited 158 1 6 357 362 doi 10 1080 1042015021000052656 ISSN 1042 0150 S2CID 95403481 Archived from the original PDF on 2012 02 04 References describing related techniques edit Grachev Alexander I Kamshilin Alexei A 2005 Electric polarization induced by optical orientation of dipolar centers in non polar piezoelectrics Optics Express The Optical Society 13 21 8565 Bibcode 2005OExpr 13 8565G doi 10 1364 opex 13 008565 ISSN 1094 4087 Anna Fragemann 2005 Optical Parametric Amplification with Periodically Poled KTiOPO4 doctoral Stockholm Sweden Department of Physics Royal Institute of Technology Sangalli P Giulotto E Rollandi L Calvi P Camagni P Samoggia G 1998 03 15 Photoinduced electronic transport in K1 xLixTaO3 Physical Review B American Physical Society APS 57 11 6231 6234 Bibcode 1998PhRvB 57 6231S doi 10 1103 physrevb 57 6231 ISSN 0163 1829 Other articles about ferroelectric data storage edit Tiny Bubbles in Nanofilms Bo Kuai Lai Inna Ponomareva Ivan Naumov Igor Kornev Huaxiang Fu Laurent Bellaiche and Greg Salamo press release University of Arkansas 16 Mar 2006 Retrieved from https en wikipedia org w index php title Photon induced electric field poling amp oldid 1097474459, wikipedia, wiki, book, books, library,
