Microstructure and magnetooptics of silicon oxide with implanted nickel nanoparticles
Metallic nickel nanoparticles of various sizes are formed in a thin near-surface layer in an amorphous SiO 2 matrix during 40-keV Ni + ion implantation at a dose of (0.25−1.0) × 10 17 ions/cm 2 . The micro-structure of the irradiated layer and the crystal structure, morphology, and sizes of nickel p...
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creator | Edel’man, I. S. Petrov, D. A. Ivantsov, R. D. Zharkov, S. M. Khaibullin, R. I. Valeev, V. F. Nuzhdin, V. I. Stepanov, A. L. |
description | Metallic nickel nanoparticles of various sizes are formed in a thin near-surface layer in an amorphous SiO
2
matrix during 40-keV Ni
+
ion implantation at a dose of (0.25−1.0) × 10
17
ions/cm
2
. The micro-structure of the irradiated layer and the crystal structure, morphology, and sizes of nickel particles formed at various irradiation doses are studied by transmission electron microscopy and electron diffraction. The magnetooptical Faraday effect and the magnetic circular dichroism in an ensemble of nickel nanoparticles are studied in the optical range. The permittivity
tensor components are calculated for the implanted samples using an effective medium model with allowance for the results of magnetooptical measurements. The spectral dependences of the tensor
components are found to be strongly different from those of a continuous metallic nickel film. These differences are related to a disperse structure of the magnetic nickel phase and to a surface plasma resonance in the metal nanoparticles. |
doi_str_mv | 10.1134/S1063776111160035 |
format | Article |
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2
matrix during 40-keV Ni
+
ion implantation at a dose of (0.25−1.0) × 10
17
ions/cm
2
. The micro-structure of the irradiated layer and the crystal structure, morphology, and sizes of nickel particles formed at various irradiation doses are studied by transmission electron microscopy and electron diffraction. The magnetooptical Faraday effect and the magnetic circular dichroism in an ensemble of nickel nanoparticles are studied in the optical range. The permittivity
tensor components are calculated for the implanted samples using an effective medium model with allowance for the results of magnetooptical measurements. The spectral dependences of the tensor
components are found to be strongly different from those of a continuous metallic nickel film. These differences are related to a disperse structure of the magnetic nickel phase and to a surface plasma resonance in the metal nanoparticles.</description><identifier>ISSN: 1063-7761</identifier><identifier>EISSN: 1090-6509</identifier><identifier>DOI: 10.1134/S1063776111160035</identifier><language>eng</language><publisher>Dordrecht: SP MAIK Nauka/Interperiodica</publisher><subject>Analysis ; Classical and Quantum Gravitation ; CONDENSED MATTER PHYSICS, SUPERCONDUCTIVITY AND SUPERFLUIDITY ; CRYSTAL STRUCTURE ; Crystals ; Disorder ; ELECTRON DIFFRACTION ; Elementary Particles ; FARADAY EFFECT ; ION IMPLANTATION ; KEV RANGE ; LAYERS ; MAGNETIC CIRCULAR DICHROISM ; MICROSTRUCTURE ; MORPHOLOGY ; Nanoparticles ; NANOSCIENCE AND NANOTECHNOLOGY ; NANOSTRUCTURES ; NICKEL ; NICKEL IONS ; Order ; Particle and Nuclear Physics ; PERMITTIVITY ; Phase Transition in Condensed System ; Physics ; Physics and Astronomy ; Quantum Field Theory ; RADIATION DOSES ; RADIATION EFFECTS ; Relativity Theory ; Silicon ; SILICON OXIDES ; Solid State Physics ; Structure ; SURFACES ; TENSORS ; Toy industry ; TRANSMISSION ELECTRON MICROSCOPY</subject><ispartof>Journal of experimental and theoretical physics, 2011-12, Vol.113 (6), p.1040-1049</ispartof><rights>Pleiades Publishing, Ltd. 2011</rights><rights>COPYRIGHT 2011 Springer</rights><lds50>peer_reviewed</lds50><woscitedreferencessubscribed>false</woscitedreferencessubscribed><citedby>FETCH-LOGICAL-c389t-d6048f3f66f78e3f5bfffeb84626fea72b3a879ca2e33c76083f63b68ab3cb823</citedby><cites>FETCH-LOGICAL-c389t-d6048f3f66f78e3f5bfffeb84626fea72b3a879ca2e33c76083f63b68ab3cb823</cites></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><linktopdf>$$Uhttps://link.springer.com/content/pdf/10.1134/S1063776111160035$$EPDF$$P50$$Gspringer$$H</linktopdf><linktohtml>$$Uhttps://link.springer.com/10.1134/S1063776111160035$$EHTML$$P50$$Gspringer$$H</linktohtml><link.rule.ids>230,314,780,784,885,27924,27925,41488,42557,51319</link.rule.ids><backlink>$$Uhttps://www.osti.gov/biblio/22027956$$D View this record in Osti.gov$$Hfree_for_read</backlink></links><search><creatorcontrib>Edel’man, I. S.</creatorcontrib><creatorcontrib>Petrov, D. A.</creatorcontrib><creatorcontrib>Ivantsov, R. D.</creatorcontrib><creatorcontrib>Zharkov, S. M.</creatorcontrib><creatorcontrib>Khaibullin, R. I.</creatorcontrib><creatorcontrib>Valeev, V. F.</creatorcontrib><creatorcontrib>Nuzhdin, V. I.</creatorcontrib><creatorcontrib>Stepanov, A. L.</creatorcontrib><title>Microstructure and magnetooptics of silicon oxide with implanted nickel nanoparticles</title><title>Journal of experimental and theoretical physics</title><addtitle>J. Exp. Theor. Phys</addtitle><description>Metallic nickel nanoparticles of various sizes are formed in a thin near-surface layer in an amorphous SiO
2
matrix during 40-keV Ni
+
ion implantation at a dose of (0.25−1.0) × 10
17
ions/cm
2
. The micro-structure of the irradiated layer and the crystal structure, morphology, and sizes of nickel particles formed at various irradiation doses are studied by transmission electron microscopy and electron diffraction. The magnetooptical Faraday effect and the magnetic circular dichroism in an ensemble of nickel nanoparticles are studied in the optical range. The permittivity
tensor components are calculated for the implanted samples using an effective medium model with allowance for the results of magnetooptical measurements. The spectral dependences of the tensor
components are found to be strongly different from those of a continuous metallic nickel film. These differences are related to a disperse structure of the magnetic nickel phase and to a surface plasma resonance in the metal nanoparticles.</description><subject>Analysis</subject><subject>Classical and Quantum Gravitation</subject><subject>CONDENSED MATTER PHYSICS, SUPERCONDUCTIVITY AND SUPERFLUIDITY</subject><subject>CRYSTAL STRUCTURE</subject><subject>Crystals</subject><subject>Disorder</subject><subject>ELECTRON DIFFRACTION</subject><subject>Elementary Particles</subject><subject>FARADAY EFFECT</subject><subject>ION IMPLANTATION</subject><subject>KEV RANGE</subject><subject>LAYERS</subject><subject>MAGNETIC CIRCULAR DICHROISM</subject><subject>MICROSTRUCTURE</subject><subject>MORPHOLOGY</subject><subject>Nanoparticles</subject><subject>NANOSCIENCE AND NANOTECHNOLOGY</subject><subject>NANOSTRUCTURES</subject><subject>NICKEL</subject><subject>NICKEL IONS</subject><subject>Order</subject><subject>Particle and Nuclear Physics</subject><subject>PERMITTIVITY</subject><subject>Phase Transition in Condensed System</subject><subject>Physics</subject><subject>Physics and Astronomy</subject><subject>Quantum Field Theory</subject><subject>RADIATION DOSES</subject><subject>RADIATION EFFECTS</subject><subject>Relativity Theory</subject><subject>Silicon</subject><subject>SILICON OXIDES</subject><subject>Solid State Physics</subject><subject>Structure</subject><subject>SURFACES</subject><subject>TENSORS</subject><subject>Toy industry</subject><subject>TRANSMISSION ELECTRON MICROSCOPY</subject><issn>1063-7761</issn><issn>1090-6509</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2011</creationdate><recordtype>article</recordtype><recordid>eNp9kU9PwyAYhxujiXP6AbyRePLQSaGj9Lgs_lkyY-LcmVD6sjE7WIDF-e2lmZfFRDhA4HkI7-_NstsCj4qClg-LAjNaVaxIg2FMx2fZoMA1ztkY1-f9ntG8v7_MrkLYYIw5wfUgW74a5V2Ifq_i3gOStkVbubIQndtFowJyGgXTGeUscgfTAvoycY3MdtdJG6FF1qhP6JCV1u2kT0oH4Tq70LILcPO7DrPl0-PH9CWfvz3PppN5riivY94yXHJNNWO64kD1uNFaQ8NLRpgGWZGGSl7VShKgVFUM88TShnHZUNVwQofZ3fHdVIERQZkIap1-akFFQQgmVT1miRodqZXsQBirXfRSpdnCtq8LtEnnE8rKFBityiTcnwiJiXCIK7kPQcwW76dscWT7GIMHLXbebKX_FgUWfWvEn9YkhxydkFi7Ai82bu9tSuof6Qe6QpBg</recordid><startdate>20111201</startdate><enddate>20111201</enddate><creator>Edel’man, I. S.</creator><creator>Petrov, D. A.</creator><creator>Ivantsov, R. D.</creator><creator>Zharkov, S. M.</creator><creator>Khaibullin, R. I.</creator><creator>Valeev, V. F.</creator><creator>Nuzhdin, V. I.</creator><creator>Stepanov, A. L.</creator><general>SP MAIK Nauka/Interperiodica</general><general>Springer</general><scope>AAYXX</scope><scope>CITATION</scope><scope>ISR</scope><scope>OTOTI</scope></search><sort><creationdate>20111201</creationdate><title>Microstructure and magnetooptics of silicon oxide with implanted nickel nanoparticles</title><author>Edel’man, I. S. ; Petrov, D. A. ; Ivantsov, R. D. ; Zharkov, S. M. ; Khaibullin, R. I. ; Valeev, V. F. ; Nuzhdin, V. I. ; Stepanov, A. L.</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c389t-d6048f3f66f78e3f5bfffeb84626fea72b3a879ca2e33c76083f63b68ab3cb823</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2011</creationdate><topic>Analysis</topic><topic>Classical and Quantum Gravitation</topic><topic>CONDENSED MATTER PHYSICS, SUPERCONDUCTIVITY AND SUPERFLUIDITY</topic><topic>CRYSTAL STRUCTURE</topic><topic>Crystals</topic><topic>Disorder</topic><topic>ELECTRON DIFFRACTION</topic><topic>Elementary Particles</topic><topic>FARADAY EFFECT</topic><topic>ION IMPLANTATION</topic><topic>KEV RANGE</topic><topic>LAYERS</topic><topic>MAGNETIC CIRCULAR DICHROISM</topic><topic>MICROSTRUCTURE</topic><topic>MORPHOLOGY</topic><topic>Nanoparticles</topic><topic>NANOSCIENCE AND NANOTECHNOLOGY</topic><topic>NANOSTRUCTURES</topic><topic>NICKEL</topic><topic>NICKEL IONS</topic><topic>Order</topic><topic>Particle and Nuclear Physics</topic><topic>PERMITTIVITY</topic><topic>Phase Transition in Condensed System</topic><topic>Physics</topic><topic>Physics and Astronomy</topic><topic>Quantum Field Theory</topic><topic>RADIATION DOSES</topic><topic>RADIATION EFFECTS</topic><topic>Relativity Theory</topic><topic>Silicon</topic><topic>SILICON OXIDES</topic><topic>Solid State Physics</topic><topic>Structure</topic><topic>SURFACES</topic><topic>TENSORS</topic><topic>Toy industry</topic><topic>TRANSMISSION ELECTRON MICROSCOPY</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Edel’man, I. S.</creatorcontrib><creatorcontrib>Petrov, D. A.</creatorcontrib><creatorcontrib>Ivantsov, R. D.</creatorcontrib><creatorcontrib>Zharkov, S. M.</creatorcontrib><creatorcontrib>Khaibullin, R. I.</creatorcontrib><creatorcontrib>Valeev, V. F.</creatorcontrib><creatorcontrib>Nuzhdin, V. I.</creatorcontrib><creatorcontrib>Stepanov, A. L.</creatorcontrib><collection>CrossRef</collection><collection>Gale In Context: Science</collection><collection>OSTI.GOV</collection><jtitle>Journal of experimental and theoretical physics</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Edel’man, I. S.</au><au>Petrov, D. A.</au><au>Ivantsov, R. D.</au><au>Zharkov, S. M.</au><au>Khaibullin, R. I.</au><au>Valeev, V. F.</au><au>Nuzhdin, V. I.</au><au>Stepanov, A. L.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Microstructure and magnetooptics of silicon oxide with implanted nickel nanoparticles</atitle><jtitle>Journal of experimental and theoretical physics</jtitle><stitle>J. Exp. Theor. Phys</stitle><date>2011-12-01</date><risdate>2011</risdate><volume>113</volume><issue>6</issue><spage>1040</spage><epage>1049</epage><pages>1040-1049</pages><issn>1063-7761</issn><eissn>1090-6509</eissn><abstract>Metallic nickel nanoparticles of various sizes are formed in a thin near-surface layer in an amorphous SiO
2
matrix during 40-keV Ni
+
ion implantation at a dose of (0.25−1.0) × 10
17
ions/cm
2
. The micro-structure of the irradiated layer and the crystal structure, morphology, and sizes of nickel particles formed at various irradiation doses are studied by transmission electron microscopy and electron diffraction. The magnetooptical Faraday effect and the magnetic circular dichroism in an ensemble of nickel nanoparticles are studied in the optical range. The permittivity
tensor components are calculated for the implanted samples using an effective medium model with allowance for the results of magnetooptical measurements. The spectral dependences of the tensor
components are found to be strongly different from those of a continuous metallic nickel film. These differences are related to a disperse structure of the magnetic nickel phase and to a surface plasma resonance in the metal nanoparticles.</abstract><cop>Dordrecht</cop><pub>SP MAIK Nauka/Interperiodica</pub><doi>10.1134/S1063776111160035</doi><tpages>10</tpages></addata></record> |
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source | SpringerNature Journals |
subjects | Analysis Classical and Quantum Gravitation CONDENSED MATTER PHYSICS, SUPERCONDUCTIVITY AND SUPERFLUIDITY CRYSTAL STRUCTURE Crystals Disorder ELECTRON DIFFRACTION Elementary Particles FARADAY EFFECT ION IMPLANTATION KEV RANGE LAYERS MAGNETIC CIRCULAR DICHROISM MICROSTRUCTURE MORPHOLOGY Nanoparticles NANOSCIENCE AND NANOTECHNOLOGY NANOSTRUCTURES NICKEL NICKEL IONS Order Particle and Nuclear Physics PERMITTIVITY Phase Transition in Condensed System Physics Physics and Astronomy Quantum Field Theory RADIATION DOSES RADIATION EFFECTS Relativity Theory Silicon SILICON OXIDES Solid State Physics Structure SURFACES TENSORS Toy industry TRANSMISSION ELECTRON MICROSCOPY |
title | Microstructure and magnetooptics of silicon oxide with implanted nickel nanoparticles |
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