Oleg Minin: Difference between revisions
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'''Oleg V. Minin''' ({{lang-ru|link=no|Олег Владиленович Минин}}) (born March 22, 1960 in [[Novosibirsk]] [[akademgorodok|Academytown]], Russia), is a Russian [[physicist]], corresponding member of the Russian Academy of Metrology and a full professor of Physics at the [[Tomsk Polytechnic University]]. He became known for contribution to the creation of new directions in science: THz 3D [[Zone plate]], hypercumulative [[shaped charge]], [[Structured light|subwavelength structured light]], including [[acoustics]] and surface [[plasmon]]. |
'''Oleg V. Minin''' ({{lang-ru|link=no|Олег Владиленович Минин}}) (born March 22, 1960 in [[Novosibirsk]] [[akademgorodok|Academytown]], Russia), is a Russian [[physicist]], corresponding member of the Russian Academy of Metrology and a full professor of Physics at the [[Tomsk Polytechnic University]]. He became known for contribution to the creation of new directions in science: THz 3D [[Zone plate]], Mesotronics (mesoscale photonics), hypercumulative [[shaped charge]], [[Structured light|subwavelength structured light]], including [[acoustics]] and surface [[plasmon]]. |
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==Biography== |
==Biography== |
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In March 2004 defended his doctoral thesis at the [[Novosibirsk State Technical University]] and received degrees of Doctor of Technical Sciences (Equivalent to [[Habilitation#Equivalent degrees|Habilitation degree]]). |
In March 2004 defended his doctoral thesis at the [[Novosibirsk State Technical University]] and received degrees of Doctor of Technical Sciences (Equivalent to [[Habilitation#Equivalent degrees|Habilitation degree]]). |
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The dissertation (which were awarded in 2001 by the [[Ministry of Defence (Russia)]] for the best scientific work during 1997–2000) formed the basis of monographs "Diffractional Optics of Millimetre Waves",<ref>I.V. Minin, O.V. Minin. [https://www.routledge.com/Diffractional-Optics-of-Millimetre-Waves/Minin-Minin/p/book/9780367454326 ''Diffractional Optics of Millimetre Waves''] (lOP Publisher, 2004).</ref> "Basic Principles of Fresnel Antenna Arrays"<ref>I.V. Minin, O.V. Minin. [https://www.springer.com/gp/book/9783540795582 ''Basic Principles of Fresnel Antenna Arrays''] (Springer, 2008).</ref> and later "Diffractive Optics and Nanophotonics: Resolution Below the Diffraction Limit”<ref>I.V. Minin, O.V. Minin. [https://link.springer.com/book/10.1007/978-3-319-24253-8 ''Diffractive Optics and Nanophotonics: Resolution Below the Diffraction Limit''] (Springer, 2016).</ref> The biographical data of Prof. O.V.Minin were included in Marquis Who's Who in the World (2007).<ref name="Karabchevsky"/> Almost all scientific work was carried out together with his brother (twins) prof. [[Igor V. Minin]]. |
The dissertation (which were awarded in 2001 by the [[Ministry of Defence (Russia)]] for the best scientific work during 1997–2000) formed the basis of monographs "Diffractional Optics of Millimetre Waves",<ref>I.V. Minin, O.V. Minin. [https://www.routledge.com/Diffractional-Optics-of-Millimetre-Waves/Minin-Minin/p/book/9780367454326 ''Diffractional Optics of Millimetre Waves''] (lOP Publisher, 2004).</ref> "Basic Principles of Fresnel Antenna Arrays"<ref>I.V. Minin, O.V. Minin. [https://www.springer.com/gp/book/9783540795582 ''Basic Principles of Fresnel Antenna Arrays''] (Springer, 2008).</ref> and later "Diffractive Optics and Nanophotonics: Resolution Below the Diffraction Limit”<ref>I.V. Minin, O.V. Minin. [https://link.springer.com/book/10.1007/978-3-319-24253-8 ''Diffractive Optics and Nanophotonics: Resolution Below the Diffraction Limit''] (Springer, 2016).</ref> and [https://link.springer.com/book/10.1007/978-3-030-66945-4 «The photonic hook: from Optics to Acoustics and Plasmonics», Springer Cham (2021)]. The biographical data of Prof. O.V.Minin were included in Marquis Who's Who in the World (2007).<ref name="Karabchevsky"/> Almost all scientific work was carried out together with his brother (twins) prof. [[Igor V. Minin]]. |
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Due to the book, which were dedicated to the 40th anniversary of the Novosibirsk Institute of Applied Physics in April 2007, the [[Federal Security Service|FSB of Russia]] accused Oleg and his brother Igor of revealing state secrets sensitive information about projects at an institute that conducts research for the [[Ministry of Defence (Russia)]].<ref>[https://www.nytimes.com/2007/08/27/world/europe/27iht-moscow.1.7268656.html ''Russia arrests 10 suspects in murder of reporter''], "New York Times", August 27, 2007.</ref><ref>Alexandra Taranova, [https://www.themoscowtimes.com/2010/09/21/2-scientists-held-in-murky-spy-case-a1622 ''2 Scientists Held in Murky Spy Case''], "Moscow Times", September 21, 2010; Natalya Krainova, [https://www.themoscowtimes.com/2012/11/13/physicist-convicted-of-espionage-gets-parole-a19345 ''Physicist Convicted of Espionage Gets Parole''], "Moscow Times", November 13, 2012.</ref> This case was widely publicized, well-known scientists and human rights activists spoke out in defense of the physics brothers. In July of the same year, the FSB investigators dropped its charges against Oleg and Igor and prosecutors in [[Novosibirsk]] issued a rare apology to the scientists.{{Citation needed|date=November 2020}} |
Due to the book, which were dedicated to the 40th anniversary of the Novosibirsk Institute of Applied Physics in April 2007, the [[Federal Security Service|FSB of Russia]] accused Oleg and his brother Igor of revealing state secrets sensitive information about projects at an institute that conducts research for the [[Ministry of Defence (Russia)]].<ref>[https://www.nytimes.com/2007/08/27/world/europe/27iht-moscow.1.7268656.html ''Russia arrests 10 suspects in murder of reporter''], "New York Times", August 27, 2007.</ref><ref>Alexandra Taranova, [https://www.themoscowtimes.com/2010/09/21/2-scientists-held-in-murky-spy-case-a1622 ''2 Scientists Held in Murky Spy Case''], "Moscow Times", September 21, 2010; Natalya Krainova, [https://www.themoscowtimes.com/2012/11/13/physicist-convicted-of-espionage-gets-parole-a19345 ''Physicist Convicted of Espionage Gets Parole''], "Moscow Times", November 13, 2012.</ref> This case was widely publicized, well-known scientists and human rights activists spoke out in defense of the physics brothers. In July of the same year, the FSB investigators dropped its charges against Oleg and Igor and prosecutors in [[Novosibirsk]] issued a rare apology to the scientists.{{Citation needed|date=November 2020}} |
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==Research== |
==Research== |
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O.V. Minin have established strong research foundations in different fields of physics, having a global priority, such as: shock wave focusing by diffractive optics,<ref>[https://www.intechopen.com/profiles/3712/oleg-minin Novosibirsk State Technical University. Oleg Minin]</ref> into explosive [[plasma antenna]]s, [[Structured light|subwavelength structured light]] and hypercumulative [[shaped charge]]. |
O.V. Minin have established strong research foundations in different fields of physics, having a global priority, such as: shock wave focusing by diffractive optics,<ref>[https://www.intechopen.com/profiles/3712/oleg-minin Novosibirsk State Technical University. Oleg Minin]</ref> into explosive [[plasma antenna]]s, near-field [[Structured light|subwavelength structured light]], mesoscale acoustic [[Lens]] and hypercumulative [[shaped charge]]. |
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In collaboration with his twin - Prof. [[Igor V. Minin]] in 2015 he discovered so-called photonic hook effect in optics, plasmonic and acoustic.<ref>{{Cite book|url=https://link.springer.com/book/10.1007/978-3-319-24253-8|doi = 10.1007/978-3-319-24253-8|title = Diffractive Optics and Nanophotonics|series = SpringerBriefs in Physics|year = 2016|isbn = 978-3-319-24251-4}}</ref><ref>{{Cite book|url=https://link.springer.com/book/10.1007/978-3-030-66945-4|doi = 10.1007/978-3-030-66945-4|title = The photonic hook: from Optics to Acoustics and Plasmonics = SpringerBriefs in Physics|year = 2021|isbn = 978-3-030-66945-4}}</ref><ref>{{cite journal | last1= Dholakia | first1=K. | last2= Bruce | first2=G.D. | title= Optical hooks | journal= Nat. Photonics | volume=13 | date=2019 | doi=10.1038/s41566-019-0403-9| page=229-230}}</ref> - artificially curved light beam with subwavelength curvature and beamwaist. |
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Also it has been experimentally verified for the first time an existence of [[Surface plasmon]] both photonic jet and photonic hook phenomena.<ref>{{Cite book|url=https://link.springer.com/book/10.1007/978-3-030-66945-4|doi = 10.1007/978-3-030-66945-4|title = The photonic hook: from Optics to Acoustics and Plasmonics = SpringerBriefs in Physics|year = 2021|isbn = 978-3-030-66945-4}}</ref> |
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In the dielectric structures with Mie size parameter in order of ten, which are in the region between the wave and [[Geometrical optics]], he and his colleagues have discover some new unusual effects, including high-order [[Fano resonance]]in the dielectric mesoscale particles (so-called super-resonance effect)<ref>{{cite journal | last1= Wang | first1=Z. | last2=Luk’yanchuk| first2=B. | last3=Yue | first3=L. | last4= Yan | first4=B. | last5=Yan | first5=B. | last6= Monks | first6=J. | last7= Dhama| first7=R. | last8=Minin | first8=O.V.| last9=Minin| first9=I.V.| last10=Huang| first10=S.| last11=Fedyanin| first11=A. | title=High order Fano resonances and giant magnetic fields in dielectric microspheres | journal=Sci Rep| volume=9 | date=2019 | doi=10.1038/s41598-019-56783-3| page=20293}}</ref><ref>{{cite journal | last1=Minin | first1=I.V. | last2=Minin | first2=O.V.| last3=Zhou | first3=S. | title=High-Order Fano Resonance in a Mesoscale Dielectric Sphere with a Low Refractive Index | journal=Jept. Lett. | volume=116 | date=2022 | doi= 10.1134/S002136402260121X | page=144-148}}</ref> which allow to generate thegiant magnetic and electric fields. |
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The presence of a number of unusual properties and applications indicates the formation of a new promising direction in optics which was called «Mesotronics».<ref>{{cite journal | last1=Minin | first1=I.V. | last2=Minin | first2=O.V.| title=Mesotronics: Some New, Unusual Optical Effects | journal=Photonics | volume=9 | date=2022 | doi=10.3390/photonics9100762 | page=762}}</ref><ref>{{cite journal | last1=Minin | first1=I.V. | last2=Minin | first2=O.V.| last3= Luk'yanchuk| first3=B.| title= Mesotronic era of dielectric photonics | journal= Proc. SPIE 12152 | volume=121520D | date=2022 | doi= 10.1117/12.2634133| page=762}}</ref> |
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He made the pioneering investigations of plasma jets produced by intense laser matter interactions based on hypercumulation principles to better understand [[astrophysical jet]]s, where a cumulative jets are observed to originate from [[young stellar object]]s and [[active galactic nucleus]]. These results also give insight into [[shock wave]]. |
He made the pioneering investigations of plasma jets produced by intense laser matter interactions based on hypercumulation principles to better understand [[astrophysical jet]]s, where a cumulative jets are observed to originate from [[young stellar object]]s and [[active galactic nucleus]]. These results also give insight into [[shock wave]]. |
Revision as of 11:31, 21 April 2023
Oleg V. Minin | |
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Born | |
Nationality | USSR, then Russia |
Alma mater | Novosibirsk State University |
Scientific career | |
Fields | Physicist, Radiophysics, Photonics, Terahertz technology |
Institutions | Tomsk Polytechnic University |
Oleg V. Minin (Template:Lang-ru) (born March 22, 1960 in Novosibirsk Academytown, Russia), is a Russian physicist, corresponding member of the Russian Academy of Metrology and a full professor of Physics at the Tomsk Polytechnic University. He became known for contribution to the creation of new directions in science: THz 3D Zone plate, Mesotronics (mesoscale photonics), hypercumulative shaped charge, subwavelength structured light, including acoustics and surface plasmon.
Biography
He received his M.S. from Novosibirsk State University in 1982, and received his PhD degree of physics and mathematics on radiophysics, including quantum physics at Tomsk Institute of Atmospheric Optics in 1987.[1] At the same time, from 1981 to 1982 he part-time worked as the laboratory assistants at the Institute of Applied Physics (Novosibirsk, Academytown), founded by his father in 1966-a famous scientist Prof. Vladilen F. Minin.
In March 2004 defended his doctoral thesis at the Novosibirsk State Technical University and received degrees of Doctor of Technical Sciences (Equivalent to Habilitation degree).
The dissertation (which were awarded in 2001 by the Ministry of Defence (Russia) for the best scientific work during 1997–2000) formed the basis of monographs "Diffractional Optics of Millimetre Waves",[2] "Basic Principles of Fresnel Antenna Arrays"[3] and later "Diffractive Optics and Nanophotonics: Resolution Below the Diffraction Limit”[4] and «The photonic hook: from Optics to Acoustics and Plasmonics», Springer Cham (2021). The biographical data of Prof. O.V.Minin were included in Marquis Who's Who in the World (2007).[1] Almost all scientific work was carried out together with his brother (twins) prof. Igor V. Minin.
Due to the book, which were dedicated to the 40th anniversary of the Novosibirsk Institute of Applied Physics in April 2007, the FSB of Russia accused Oleg and his brother Igor of revealing state secrets sensitive information about projects at an institute that conducts research for the Ministry of Defence (Russia).[5][6] This case was widely publicized, well-known scientists and human rights activists spoke out in defense of the physics brothers. In July of the same year, the FSB investigators dropped its charges against Oleg and Igor and prosecutors in Novosibirsk issued a rare apology to the scientists.[citation needed]
Research
O.V. Minin have established strong research foundations in different fields of physics, having a global priority, such as: shock wave focusing by diffractive optics,[7] into explosive plasma antennas, near-field subwavelength structured light, mesoscale acoustic Lens and hypercumulative shaped charge.
In collaboration with his twin - Prof. Igor V. Minin in 2015 he discovered so-called photonic hook effect in optics, plasmonic and acoustic.[8][9][10] - artificially curved light beam with subwavelength curvature and beamwaist.
Also it has been experimentally verified for the first time an existence of Surface plasmon both photonic jet and photonic hook phenomena.[11]
In the dielectric structures with Mie size parameter in order of ten, which are in the region between the wave and Geometrical optics, he and his colleagues have discover some new unusual effects, including high-order Fano resonancein the dielectric mesoscale particles (so-called super-resonance effect)[12][13] which allow to generate thegiant magnetic and electric fields.
The presence of a number of unusual properties and applications indicates the formation of a new promising direction in optics which was called «Mesotronics».[14][15]
He made the pioneering investigations of plasma jets produced by intense laser matter interactions based on hypercumulation principles to better understand astrophysical jets, where a cumulative jets are observed to originate from young stellar objects and active galactic nucleus. These results also give insight into shock wave.
O.V. Minin are the author or coauthor more than 150 patents in the USSR/Russia, and about 450 research publications including 22 monographs (12 in Russian, 9 in English and 1 in Chinese).[1]
Awards
- For the contribution to the theory of hypercumulation, O.V. Minin was awarded the medal of the Russian National Committee on Theoretical and Applied Mechanics of Russian Academy of Sciences named after Kh.A. Rakhmatulin in 2013.[16]
- Russian medals named after V.I. Vernadsky and A. Nobel.[1]
Selected papers
- Minin O.V. and Minin I.V. Diffractional Optics of Millimetre Waves, lOP Publisher, 2004. 396 p. ISBN 9780367454326
- Minin I.V. and Minin O.V. Basic Principles of Fresnel Antenna Arrays, Springer, 2008. ISBN 978-3-540-79559-9
- Minin I.V. and Minin O.V. Diffractive Optics and Nanophotonics: Resolution Below the Diffraction Limit, Springer, 2016. ISBN 978-3-319-24251-4
- Minin I.V. and Minin O.V. Control of focusing properties of diffraction elements, Sov. J. Quantum Electron, 20, 198 (1990).
- Minin I.V. and Minin O.V. 3D diffractive lenses to overcome the 3D Abbe subwavelength diffraction, Chinese Optics Letters, 12(6), 060014 (2014).
- Pacheco-Peña V., Beruete M., Minin I.V. and Minin O.V. Terajets produced by dielectric cuboids, Appl. Phys. Let., 105, 084102 (2014).
- Luk’yanchuk B.S., Paniagua-Domínguez R., Minin I.V., Minin O.V. and Wang Z. Refractive index less than two: photonic nanojets yesterday, today and tomorrow (Invited). Optical Materials Express 7(6), 1820 (2017).
- Pham H.-H. N., Hisatake S., Minin O.V., Nagatsuma T. and Minin I.V. Enhancement of Spatial Resolution of Terahertz Imaging Systems Based on Terajet Generation by Dielectric Cube, APL Photonics 2, 056106 (2017).
- Minin I.V., Minin O.V., Katyba G.M., Chernomyrdin N.V., Kurlov V.N., Zaytsev K.I., Yue L., Wang Z. and Christodoulides D.N. Experimental observation of a photonic hook, Appl. Phys. Lett., 114, 031105 (2019).
- Rubio C., Tarrazó-Serrano D., Minin O.V., Uris A. and Minin I.V. Acoustical hooks: A new subwavelength self-bending beam, Results in Physics, 16, 102921 (2020).
References
- ^ a b c d Alina Karabchevsky, Development of mesoscale photonics and plasmonics: a tribute to the jubilee of Professors Igor V. Minin and Oleg V. Minin, SPIE Photonics Europe, 2020.
- ^ I.V. Minin, O.V. Minin. Diffractional Optics of Millimetre Waves (lOP Publisher, 2004).
- ^ I.V. Minin, O.V. Minin. Basic Principles of Fresnel Antenna Arrays (Springer, 2008).
- ^ I.V. Minin, O.V. Minin. Diffractive Optics and Nanophotonics: Resolution Below the Diffraction Limit (Springer, 2016).
- ^ Russia arrests 10 suspects in murder of reporter, "New York Times", August 27, 2007.
- ^ Alexandra Taranova, 2 Scientists Held in Murky Spy Case, "Moscow Times", September 21, 2010; Natalya Krainova, Physicist Convicted of Espionage Gets Parole, "Moscow Times", November 13, 2012.
- ^ Novosibirsk State Technical University. Oleg Minin
- ^ Diffractive Optics and Nanophotonics. SpringerBriefs in Physics. 2016. doi:10.1007/978-3-319-24253-8. ISBN 978-3-319-24251-4.
- ^ The photonic hook: from Optics to Acoustics and Plasmonics = SpringerBriefs in Physics. 2021. doi:10.1007/978-3-030-66945-4. ISBN 978-3-030-66945-4.
- ^ Dholakia, K.; Bruce, G.D. (2019). "Optical hooks". Nat. Photonics. 13: 229-230. doi:10.1038/s41566-019-0403-9.
- ^ The photonic hook: from Optics to Acoustics and Plasmonics = SpringerBriefs in Physics. 2021. doi:10.1007/978-3-030-66945-4. ISBN 978-3-030-66945-4.
- ^ Wang, Z.; Luk’yanchuk, B.; Yue, L.; Yan, B.; Yan, B.; Monks, J.; Dhama, R.; Minin, O.V.; Minin, I.V.; Huang, S.; Fedyanin, A. (2019). "High order Fano resonances and giant magnetic fields in dielectric microspheres". Sci Rep. 9: 20293. doi:10.1038/s41598-019-56783-3.
- ^ Minin, I.V.; Minin, O.V.; Zhou, S. (2022). "High-Order Fano Resonance in a Mesoscale Dielectric Sphere with a Low Refractive Index". Jept. Lett. 116: 144-148. doi:10.1134/S002136402260121X.
- ^ Minin, I.V.; Minin, O.V. (2022). "Mesotronics: Some New, Unusual Optical Effects". Photonics. 9: 762. doi:10.3390/photonics9100762.
{{cite journal}}
: CS1 maint: unflagged free DOI (link) - ^ Minin, I.V.; Minin, O.V.; Luk'yanchuk, B. (2022). "Mesotronic era of dielectric photonics". Proc. SPIE 12152. 121520D: 762. doi:10.1117/12.2634133.
- ^ Medal Award List named after Kh.A. Rakhmatulin [1]