Jump to content

Swapan Chattopadhyay: Difference between revisions

From Wikipedia, the free encyclopedia
Browse history interactively
← Previous edit
Content deleted Content added
VisualWikitext
Importing Wikidata short description: "Indian physicist"
Citation bot (talk | contribs)
Bots
5,046,646 edits
Add: bibcode, authors 1-1. | Use this bot. Report bugs. | Suggested by Abductive | Category:People associated with Fermilab | #UCB_Category 21/53
 
Line 47: Line 47:
Chattopadhyay is noted for his pioneering contributions of innovative concepts, techniques and developments in [[particle accelerator#High-energy physics|high energy particle colliders]], coherent and incoherent light sources, ultrafast sciences in the [[femto-]] and [[atto-]] second regimes, superconducting linear accelerators and various applications of interaction of particle and light beams.<ref>{{Cite web|date=2017-04-22|title=Swapan Chattopadhyay and Omar Chmaissem – NIU – Huskie Spotlight|url=https://www.niu.edu/spotlight/chattopadhyay-chmaissem.shtml|access-date=2021-04-26|archive-url=https://web.archive.org/web/20170422070929/https://www.niu.edu/spotlight/chattopadhyay-chmaissem.shtml|archive-date=22 April 2017}}</ref><ref name=":2">{{Cite web|date=14 November 2006|title=Swapan Chattopadhyay appointed to the UKs first Chair of Accelerator Physics and to be the Inaugural Director of The Cockcroft Institute|url=https://www.interactions.org/press-release/swapan-chattopadhyay-appointed-uks-first-chair-accelerator|access-date=2021-04-26|website=Interactions|language=en}}</ref> He has directly contributed to the development of many accelerators around the world, e.g. the [[Super Proton Synchrotron|Super Proton-Antiproton Synchrotron]] at [[CERN]],<ref name=":1">{{Cite journal|last1=Chattopadhyay|first1=S|last2=Dôme|first2=Georges|last3=Linnecar|first3=Trevor Paul R|last4=Boussard|first4=Daniel|date=1984|title=Feasibility study of stochastic cooling of bunches in the SPS|url=https://cds.cern.ch/record/149968|language=en|doi=10.5170/CERN-1984-015.197}}</ref> the [[Advanced Light Source]] at [[Lawrence Berkeley National Laboratory|Berkeley]],<ref name="The LBL advanced light source">{{Cite journal|last1=Jackson|first1=A.|last2=Chattopadhyay|first2=S.|last3=Keller|first3=R.|last4=Kim|first4=C.|last5=Nishimura|first5=H.|last6=Selph|first6=F.|last7=Zisman|first7=M.|date=1988-06-01|title=The LBL advanced light source|osti=6841206|url=https://www.osti.gov/biblio/6841206|language=English}}</ref> the asymmetric-energy electron-positron collider [[SLAC National Accelerator Laboratory#PEP II|PEP-II]] at [[Stanford]],<ref>{{Cite book|last1=Wienands|first1=U.|last2=Anderson|first2=S.|last3=Assmannt|first3=R.|last4=Bharadwaj|first4=V.|last5=Cai|first5=Y.|last6=Clendenin|first6=J.|last7=Corredoura|first7=P.|last8=Decker|first8=F.J.|last9=Donald|first9=M.|last10=Ecklund|first10=S.|last11=Emma|first11=P.|title=Proceedings of the 1999 Particle Accelerator Conference (Cat. No.99CH36366) |chapter=Beam commissioning of the PEP-II High Energy Ring |date=March 1999|chapter-url=https://ieeexplore.ieee.org/document/792123|volume=5|pages=2993–2995 vol.5|doi=10.1109/PAC.1999.792123|isbn=0-7803-5573-3|s2cid=91179466|url=http://cds.cern.ch/record/552632 }}</ref> the Continuous Electron Beam Accelerator facility (CEBAF) at [[Thomas Jefferson National Accelerator Facility|Jefferson Lab]] and the [[Free electron laser|Free-Electron Lasers]] at Jefferson and [[Daresbury Laboratory|Daresbury Laboratories]].<ref>{{Cite journal|last1=Freyberger|first1=Arne|last2=Beard|first2=Kevin|last3=Bogacz|first3=S.|last4=Chao|first4=Yu-Chiu|last5=Chattopadhyay|first5=Swapan|last6=Douglas|first6=David|last7=Hutton|first7=Andrew|last8=Merminga|first8=Nikolitsa|last9=Tennant|first9=Christopher|last10=Tiefenback|first10=Michael|date=2004-07-01|title=The CEBAF Energy Recovery Experiment: Update and Future Plans|osti=833909|url=https://www.osti.gov/biblio/833909|language=English}}</ref>
Chattopadhyay is noted for his pioneering contributions of innovative concepts, techniques and developments in [[particle accelerator#High-energy physics|high energy particle colliders]], coherent and incoherent light sources, ultrafast sciences in the [[femto-]] and [[atto-]] second regimes, superconducting linear accelerators and various applications of interaction of particle and light beams.<ref>{{Cite web|date=2017-04-22|title=Swapan Chattopadhyay and Omar Chmaissem – NIU – Huskie Spotlight|url=https://www.niu.edu/spotlight/chattopadhyay-chmaissem.shtml|access-date=2021-04-26|archive-url=https://web.archive.org/web/20170422070929/https://www.niu.edu/spotlight/chattopadhyay-chmaissem.shtml|archive-date=22 April 2017}}</ref><ref name=":2">{{Cite web|date=14 November 2006|title=Swapan Chattopadhyay appointed to the UKs first Chair of Accelerator Physics and to be the Inaugural Director of The Cockcroft Institute|url=https://www.interactions.org/press-release/swapan-chattopadhyay-appointed-uks-first-chair-accelerator|access-date=2021-04-26|website=Interactions|language=en}}</ref> He has directly contributed to the development of many accelerators around the world, e.g. the [[Super Proton Synchrotron|Super Proton-Antiproton Synchrotron]] at [[CERN]],<ref name=":1">{{Cite journal|last1=Chattopadhyay|first1=S|last2=Dôme|first2=Georges|last3=Linnecar|first3=Trevor Paul R|last4=Boussard|first4=Daniel|date=1984|title=Feasibility study of stochastic cooling of bunches in the SPS|url=https://cds.cern.ch/record/149968|language=en|doi=10.5170/CERN-1984-015.197}}</ref> the [[Advanced Light Source]] at [[Lawrence Berkeley National Laboratory|Berkeley]],<ref name="The LBL advanced light source">{{Cite journal|last1=Jackson|first1=A.|last2=Chattopadhyay|first2=S.|last3=Keller|first3=R.|last4=Kim|first4=C.|last5=Nishimura|first5=H.|last6=Selph|first6=F.|last7=Zisman|first7=M.|date=1988-06-01|title=The LBL advanced light source|osti=6841206|url=https://www.osti.gov/biblio/6841206|language=English}}</ref> the asymmetric-energy electron-positron collider [[SLAC National Accelerator Laboratory#PEP II|PEP-II]] at [[Stanford]],<ref>{{Cite book|last1=Wienands|first1=U.|last2=Anderson|first2=S.|last3=Assmannt|first3=R.|last4=Bharadwaj|first4=V.|last5=Cai|first5=Y.|last6=Clendenin|first6=J.|last7=Corredoura|first7=P.|last8=Decker|first8=F.J.|last9=Donald|first9=M.|last10=Ecklund|first10=S.|last11=Emma|first11=P.|title=Proceedings of the 1999 Particle Accelerator Conference (Cat. No.99CH36366) |chapter=Beam commissioning of the PEP-II High Energy Ring |date=March 1999|chapter-url=https://ieeexplore.ieee.org/document/792123|volume=5|pages=2993–2995 vol.5|doi=10.1109/PAC.1999.792123|isbn=0-7803-5573-3|s2cid=91179466|url=http://cds.cern.ch/record/552632 }}</ref> the Continuous Electron Beam Accelerator facility (CEBAF) at [[Thomas Jefferson National Accelerator Facility|Jefferson Lab]] and the [[Free electron laser|Free-Electron Lasers]] at Jefferson and [[Daresbury Laboratory|Daresbury Laboratories]].<ref>{{Cite journal|last1=Freyberger|first1=Arne|last2=Beard|first2=Kevin|last3=Bogacz|first3=S.|last4=Chao|first4=Yu-Chiu|last5=Chattopadhyay|first5=Swapan|last6=Douglas|first6=David|last7=Hutton|first7=Andrew|last8=Merminga|first8=Nikolitsa|last9=Tennant|first9=Christopher|last10=Tiefenback|first10=Michael|date=2004-07-01|title=The CEBAF Energy Recovery Experiment: Update and Future Plans|osti=833909|url=https://www.osti.gov/biblio/833909|language=English}}</ref>


He was formerly the [[John Cockcroft|Sir John Cockcroft]] Chair of Physics jointly at the Universities of [[University of Liverpool|Liverpool]], [[university of Manchester|Manchester]] and [[Lancaster University|Lancaster]]—the First Chair of accelerator physics in UK, named after the British [[Nobel Laureate]] credited with creating the field.<ref>{{Cite journal|date=March 2007|title=In brief|url=http://physicstoday.scitation.org/doi/10.1063/1.2718767|journal=Physics Today|language=en|volume=60|issue=3|pages=78|doi=10.1063/1.2718767|issn=0031-9228}}</ref><ref name=":2" /> In this role he was the Inaugural Director of the [[Cockcroft Institute]] (UK), having been appointed in April 2007. Prior to this he served as associate director of [[Thomas Jefferson National Accelerator Facility]] (2001–2007),<ref>{{cite journal|date=April 2001|title=People|url=https://cds.cern.ch/record/1733181|journal=CERN Courier|volume=41|issue=3|page=34}}</ref> staff/senior scientist and founding director of the Centre for Beam Physics at [[Lawrence Berkeley National Laboratory]] (1984–2001); and [[Science attaché|scientific attaché]] at CERN (1982–1984).<ref>{{Cite web|title=INSPIRE: Swapan Chattopadhyay author profile|url=https://inspirehep.net/authors/1013953|access-date=2021-04-26|website=inspirehep.net}}</ref>
He was formerly the [[John Cockcroft|Sir John Cockcroft]] Chair of Physics jointly at the Universities of [[University of Liverpool|Liverpool]], [[university of Manchester|Manchester]] and [[Lancaster University|Lancaster]]—the First Chair of accelerator physics in UK, named after the British [[Nobel Laureate]] credited with creating the field.<ref>{{Cite journal|date=March 2007|title=In brief|url=http://physicstoday.scitation.org/doi/10.1063/1.2718767|journal=Physics Today|language=en|volume=60|issue=3|pages=78|doi=10.1063/1.2718767|bibcode=2007PhT....60c..78K |issn=0031-9228 |last1=Kaplan |first1=Karen H. }}</ref><ref name=":2" /> In this role he was the Inaugural Director of the [[Cockcroft Institute]] (UK), having been appointed in April 2007. Prior to this he served as associate director of [[Thomas Jefferson National Accelerator Facility]] (2001–2007),<ref>{{cite journal|date=April 2001|title=People|url=https://cds.cern.ch/record/1733181|journal=CERN Courier|volume=41|issue=3|page=34}}</ref> staff/senior scientist and founding director of the Centre for Beam Physics at [[Lawrence Berkeley National Laboratory]] (1984–2001); and [[Science attaché|scientific attaché]] at CERN (1982–1984).<ref>{{Cite web|title=INSPIRE: Swapan Chattopadhyay author profile|url=https://inspirehep.net/authors/1013953|access-date=2021-04-26|website=inspirehep.net}}</ref>


After the period spent at CERN, Chattopadhyay returned to Lawrence Berkeley National Laboratory in 1984, where he led and defined the accelerator physics of the Advanced Light Source (ALS)<ref name="The LBL advanced light source"/> and contributed to the conceptual design of the [[Superconducting Super Collider]] (SSC),<ref>{{Cite journal|last1=Chao|first1=A.|last2=Chattopadhyay|first2=S.|last3=Courant|first3=E.|last4=Hutton|first4=A.|last5=Keil|first5=E.|last6=Kurokawa|first6=S.|last7=Lambertson|first7=G.|last8=Pedersen|first8=F.|last9=Rees|first9=J.|last10=Seeman|first10=J.|last11=Sessler|first11=A.|year=1990|title=Workshop summary|url=https://aip.scitation.org/doi/abs/10.1063/1.39765|journal=AIP Conference Proceedings|volume=214|issue=1|pages=2–5|doi=10.1063/1.39765|issn=0094-243X}}</ref> pioneered the accelerator physics which underpinned the Berkeley-Stanford asymmetric B-factory (PEP-II) for [[CP-violation]] studies, and initiated the Berkeley FEL/Femtosecond X-ray Source and [[Plasma acceleration|Laser-Plasma Acceleration]] development. He was a senior scientist, a [[Visiting scholar|guest professor]], and the founder/director of the Center for Beam Physics at Berkeley,<ref>{{Cite web|date=April 2017|title=ATAP News, April 2017|url=https://atap.lbl.gov/atap-news-april-2017/|access-date=2021-04-26|website=atap.lbl.gov}}</ref> until his move to Thomas Jefferson National Accelerator Facility in 2001 as the associate laboratory director for accelerators. At Thomas Jefferson National Accelerator Facility, he made critical advancements in microwave superconducting linear accelerators leading the way to current and future grand instruments of science such as the high precision CEBAF and its 12 GeV upgrade for precision research in [[hadron]]ic physics,<ref>{{Cite journal|last1=Freyberger|first1=Arne|last2=Beard|first2=Kevin|last3=Bogacz|first3=S.|last4=Chao|first4=Yu-Chiu|last5=Chattopadhyay|first5=Swapan|last6=Douglas|first6=David|last7=Hutton|first7=Andrew|last8=Merminga|first8=Nikolitsa|last9=Tennant|first9=Christopher|last10=Tiefenback|first10=Michael|year=2004|title=The CEBAF Energy Recovery Experiment: Update and Future Plans|url=https://www.osti.gov/biblio/833909|journal=|osti=833909|language=English}}</ref> [[Spallation Neutron Source]] at Oak Ridge National Laboratory, USA to advance [[neutron]] sciences and novel materials research, and the current [[superconducting]] version of the [[International Linear Collider]], to name a few.
After the period spent at CERN, Chattopadhyay returned to Lawrence Berkeley National Laboratory in 1984, where he led and defined the accelerator physics of the Advanced Light Source (ALS)<ref name="The LBL advanced light source"/> and contributed to the conceptual design of the [[Superconducting Super Collider]] (SSC),<ref>{{Cite journal|last1=Chao|first1=A.|last2=Chattopadhyay|first2=S.|last3=Courant|first3=E.|last4=Hutton|first4=A.|last5=Keil|first5=E.|last6=Kurokawa|first6=S.|last7=Lambertson|first7=G.|last8=Pedersen|first8=F.|last9=Rees|first9=J.|last10=Seeman|first10=J.|last11=Sessler|first11=A.|year=1990|title=Workshop summary|url=https://aip.scitation.org/doi/abs/10.1063/1.39765|journal=AIP Conference Proceedings|volume=214|issue=1|pages=2–5|doi=10.1063/1.39765|bibcode=1990AIPC..214....2C |issn=0094-243X}}</ref> pioneered the accelerator physics which underpinned the Berkeley-Stanford asymmetric B-factory (PEP-II) for [[CP-violation]] studies, and initiated the Berkeley FEL/Femtosecond X-ray Source and [[Plasma acceleration|Laser-Plasma Acceleration]] development. He was a senior scientist, a [[Visiting scholar|guest professor]], and the founder/director of the Center for Beam Physics at Berkeley,<ref>{{Cite web|date=April 2017|title=ATAP News, April 2017|url=https://atap.lbl.gov/atap-news-april-2017/|access-date=2021-04-26|website=atap.lbl.gov}}</ref> until his move to Thomas Jefferson National Accelerator Facility in 2001 as the associate laboratory director for accelerators. At Thomas Jefferson National Accelerator Facility, he made critical advancements in microwave superconducting linear accelerators leading the way to current and future grand instruments of science such as the high precision CEBAF and its 12 GeV upgrade for precision research in [[hadron]]ic physics,<ref>{{Cite journal|last1=Freyberger|first1=Arne|last2=Beard|first2=Kevin|last3=Bogacz|first3=S.|last4=Chao|first4=Yu-Chiu|last5=Chattopadhyay|first5=Swapan|last6=Douglas|first6=David|last7=Hutton|first7=Andrew|last8=Merminga|first8=Nikolitsa|last9=Tennant|first9=Christopher|last10=Tiefenback|first10=Michael|year=2004|title=The CEBAF Energy Recovery Experiment: Update and Future Plans|url=https://www.osti.gov/biblio/833909|journal=|osti=833909|language=English}}</ref> [[Spallation Neutron Source]] at Oak Ridge National Laboratory, USA to advance [[neutron]] sciences and novel materials research, and the current [[superconducting]] version of the [[International Linear Collider]], to name a few.
His research at the Cockcroft Institute in UK included development of sources of "ultra-cold" [[Relativistic electron beam|relativistic free electron beams]] to advance coherent [[electron diffraction]] techniques; production of novel coherent and ultra-short pulses of [[photons]] (e.g. x-ray FELs); novel acceleration methods; investigation of [[photonic crystals]] and [[metamaterial]] structures for charged particle acceleration; novel high energy colliders.
His research at the Cockcroft Institute in UK included development of sources of "ultra-cold" [[Relativistic electron beam|relativistic free electron beams]] to advance coherent [[electron diffraction]] techniques; production of novel coherent and ultra-short pulses of [[photons]] (e.g. x-ray FELs); novel acceleration methods; investigation of [[photonic crystals]] and [[metamaterial]] structures for charged particle acceleration; novel high energy colliders.


While working for [[Fermilab]] and [[Northern Illinois University]] he contributed to cavity searches for [[dark matter]]; investigation of ultra-light dark matter and [[dark energy]] via [[atom interferometry]], and the creation of the Matter-wave Atomic Gradiometer Interferometric Sensor (MAGIS-100) experiment.<ref>{{cite journal |last1=Abe |first1=Mahiro |last2=Adamson |first2=Philip |last3=Borcean |first3=Marcel |last4=Bortoletto |first4=Daniela |last5=Bridges |first5=Kieran |last6=Carman |first6=Samuel P |last7=Chattopadhyay |first7=Swapan |last8=Coleman |first8=Jonathon |last9=Curfman |first9=Noah M |last10=DeRose |first10=Kenneth |last11=Deshpande |first11=Tejas |last12=Dimopoulos |first12=Savas |last13=Foot |first13=Christopher J |last14=Frisch |first14=Josef C |last15=Garber |first15=Benjamin E |last16=Geer |first16=Steve |last17=Gibson |first17=Valerie |last18=Glick |first18=Jonah |last19=Graham |first19=Peter W |last20=Hahn |first20=Steve R |last21=Harnik |first21=Roni |last22=Hawkins |first22=Leonie |last23=Hindley |first23=Sam |last24=Hogan |first24=Jason M |last25=Jiang (姜一君) |first25=Yijun |last26=Kasevich |first26=Mark A |last27=Kellett |first27=Ronald J |last28=Kiburg |first28=Mandy |last29=Kovachy |first29=Tim |last30=Lykken |first30=Joseph D |last31=March-Russell |first31=John |last32=Mitchell |first32=Jeremiah |last33=Murphy |first33=Martin |last34=Nantel |first34=Megan |last35=Nobrega |first35=Lucy E |last36=Plunkett |first36=Robert K |last37=Rajendran |first37=Surjeet |last38=Rudolph |first38=Jan |last39=Sachdeva |first39=Natasha |last40=Safdari |first40=Murtaza |last41=Santucci |first41=James K |last42=Schwartzman |first42=Ariel G |last43=Shipsey |first43=Ian |last44=Swan |first44=Hunter |last45=Valerio |first45=Linda R |last46=Vasonis |first46=Arvydas |last47=Wang |first47=Yiping |last48=Wilkason |first48=Thomas|display-authors=5 |title=Matter-wave Atomic Gradiometer Interferometric Sensor (MAGIS-100) |journal=Quantum Science and Technology |date=1 October 2021 |volume=6 |issue=4 |pages=044003 |doi=10.1088/2058-9565/abf719|arxiv=2104.02835 |s2cid=209178030 }}</ref><ref>{{cite journal|title=Faces and places: Chattopadhyay returns to new challenges in the US|journal=CERN Courier|date=February 2014|volume=54|issue=7|page=32|url=http://iopp.fileburst.com/ccr/archive/CERNCourier2014Sep-digitaledition.pdf}}</ref>
While working for [[Fermilab]] and [[Northern Illinois University]] he contributed to cavity searches for [[dark matter]]; investigation of ultra-light dark matter and [[dark energy]] via [[atom interferometry]], and the creation of the Matter-wave Atomic Gradiometer Interferometric Sensor (MAGIS-100) experiment.<ref>{{cite journal |last1=Abe |first1=Mahiro |last2=Adamson |first2=Philip |last3=Borcean |first3=Marcel |last4=Bortoletto |first4=Daniela |last5=Bridges |first5=Kieran |last6=Carman |first6=Samuel P |last7=Chattopadhyay |first7=Swapan |last8=Coleman |first8=Jonathon |last9=Curfman |first9=Noah M |last10=DeRose |first10=Kenneth |last11=Deshpande |first11=Tejas |last12=Dimopoulos |first12=Savas |last13=Foot |first13=Christopher J |last14=Frisch |first14=Josef C |last15=Garber |first15=Benjamin E |last16=Geer |first16=Steve |last17=Gibson |first17=Valerie |last18=Glick |first18=Jonah |last19=Graham |first19=Peter W |last20=Hahn |first20=Steve R |last21=Harnik |first21=Roni |last22=Hawkins |first22=Leonie |last23=Hindley |first23=Sam |last24=Hogan |first24=Jason M |last25=Jiang (姜一君) |first25=Yijun |last26=Kasevich |first26=Mark A |last27=Kellett |first27=Ronald J |last28=Kiburg |first28=Mandy |last29=Kovachy |first29=Tim |last30=Lykken |first30=Joseph D |last31=March-Russell |first31=John |last32=Mitchell |first32=Jeremiah |last33=Murphy |first33=Martin |last34=Nantel |first34=Megan |last35=Nobrega |first35=Lucy E |last36=Plunkett |first36=Robert K |last37=Rajendran |first37=Surjeet |last38=Rudolph |first38=Jan |last39=Sachdeva |first39=Natasha |last40=Safdari |first40=Murtaza |last41=Santucci |first41=James K |last42=Schwartzman |first42=Ariel G |last43=Shipsey |first43=Ian |last44=Swan |first44=Hunter |last45=Valerio |first45=Linda R |last46=Vasonis |first46=Arvydas |last47=Wang |first47=Yiping |last48=Wilkason |first48=Thomas|display-authors=5 |title=Matter-wave Atomic Gradiometer Interferometric Sensor (MAGIS-100) |journal=Quantum Science and Technology |date=1 October 2021 |volume=6 |issue=4 |pages=044003 |doi=10.1088/2058-9565/abf719|arxiv=2104.02835 |bibcode=2021QS&T....6d4003A |s2cid=209178030 }}</ref><ref>{{cite journal|title=Faces and places: Chattopadhyay returns to new challenges in the US|journal=CERN Courier|date=February 2014|volume=54|issue=7|page=32|url=http://iopp.fileburst.com/ccr/archive/CERNCourier2014Sep-digitaledition.pdf}}</ref>
Having contributed to the conception, design, construction, commissioning and operation of numerous accelerators for particle and nuclear physics, photon and neutron sciences around the world, with significant research accomplishments in advanced particle and photon beam physics,<ref>{{cite journal|last1=Chattopadhyay|first1=Swapan|title=Viewpoint: Accelerators for nano- and biosciences|journal=CERN Courier|date=October 2002|volume=42|issue=8|page=46|url=https://cds.cern.ch/record/1733391}}</ref><ref>{{cite journal|last1=Chattopadhyay|first1=Swapan|title=Viewpoint: Amazing particles and light|journal=CERN Courier|date=March 2007|volume=47|issue=2|page=50|url=https://cds.cern.ch/record/1734043}}</ref> and mentoring scientists around the world, in the developing nations in particular, in accelerator developments as a unifying global force among nations, Swapan Chattopadhyay is a frequently invited speaker and advisor at professional societies and government research agencies, serving on numerous editorial, advisory and review committees throughout the world.
Having contributed to the conception, design, construction, commissioning and operation of numerous accelerators for particle and nuclear physics, photon and neutron sciences around the world, with significant research accomplishments in advanced particle and photon beam physics,<ref>{{cite journal|last1=Chattopadhyay|first1=Swapan|title=Viewpoint: Accelerators for nano- and biosciences|journal=CERN Courier|date=October 2002|volume=42|issue=8|page=46|url=https://cds.cern.ch/record/1733391}}</ref><ref>{{cite journal|last1=Chattopadhyay|first1=Swapan|title=Viewpoint: Amazing particles and light|journal=CERN Courier|date=March 2007|volume=47|issue=2|page=50|url=https://cds.cern.ch/record/1734043}}</ref> and mentoring scientists around the world, in the developing nations in particular, in accelerator developments as a unifying global force among nations, Swapan Chattopadhyay is a frequently invited speaker and advisor at professional societies and government research agencies, serving on numerous editorial, advisory and review committees throughout the world.


Latest revision as of 05:13, 8 October 2023

Swapan Chattopadhyay
Born (1951-12-26) December 26, 1951 (age 72)
Calcutta, West Bengal, India
NationalityAmerican
CitizenshipUnited States
Alma materUniversity of Calcutta (BSc)
IIT, Kharaghpur (MSc)
University of California, Berkeley (MS, PhD)
SpouseJanet Chaterji
Children2
Scientific career
FieldsPhysics
InstitutionsSLAC and Stanford University (2021–)
Northern Illinois University and Fermi National Accelerator Laboratory (2014–)
Cockcroft Institute (2007–2014)
Universities of Liverpool, Manchester and Lancaster, UK (2007–2014)
Thomas Jefferson National Accelerator Facility (2001–2007)
University of California at Berkeley (1974–1982, 1984–2001, 2009–2011, 2013–2015, 2023–)
Lawrence Berkeley National Laboratory (1976–1982, 1984–2001)
CERN (1982–1984, 2008–)
ThesisOn stochastic cooling of bunched beams from fluctuation and kinetic theory
Doctoral advisorsJoseph J. Bisognano
Other academic advisorsProf. Wulf Kunkel
Prof. Owen Chamberlain
Signature

Swapan Chattopadhyay CorrFRSE (born December 26, 1951) is an Indian American physicist. Chattopadhyay completed his PhD from the University of California (Berkeley) in 1982.[1]

Currently, Chattopadhyay is part-time Faculty at University of California at Berkeley, adjunct professor of photon science at SLAC, Stanford University, and emeritus president's professor at Northern Illinois University (NIU) and distinguished scientist emeritus at Fermi National Accelerator Laboratory (Fermilab), where he was a member of the director's senior leadership team and was director of the Cooperative Research and Development Agreement between Fermilab and NIU.[2][3]

Chattopadhyay is a Fellow of the American Physical Society,[4] American Association for the Advancement of Science,[5] Institute of Physics (UK), Royal Society of Arts, Manufactures and Commerce (UK) and Corresponding Fellow of the Royal Society of Edinburgh[6] and a member of many international panels and committees, including the "International Committee for Future Accelerators" and the DESY Science Council (2008–2013).[7][8]

Early life and education

[edit]

Early childhood

[edit]

Swapan Chattopadhyay was born in Calcutta, India, and spent his early childhood years in the Himalayan hill town of Darjeeling. The Indo-China conflict over the disputed territory of Tibet led the family to relocated to the metropolitan mega-city of Calcutta in the early 1960s, where he received high school and university education. He was awarded a high school diploma in 1967 as a National Scholar, graduating from Ballygunge Government High School and was selected a National Science Talent Scholar in a nationwide competition. It was in this high school, that he was the beneficiary of the gifted mentorship of the school's physics teacher, Pramatha Nath Patra.

Higher education and early career

[edit]

Chattopadhyay completed his B.Sc. degree from Calcutta University in 1970 in physics. He continued his studies at the Indian Institute of Technology at Kharagpur, for his post-graduate studies, completing his M.Sc. degree with specialization in Particle Physics in 1972.

Chattopadhyay then joined in 1972 the Physics department of the University of Oregon. However, over time, the draw towards the University of California at Berkeley got stronger and he joined the University of California at Berkeley in 1974, as a Ph.D. student in the Department of Physics. After flirting for two years (1974–1976) with the inimitable Berkeley brand of theoretical particle physics, then known as the "S-matrix" and "Bootstrap" theories of "strong interactions", under tutelage of Prof. Geoffrey Chew, Chattopadhyay was attracted away by accelerator physics dealing with charged particle and light beams. After having completed his PhD, he moved to CERN as an "attaché scientifique" in the Super Proton-Antiproton Synchrotron, contributing to program of stochastic cooling of antiproton beams.[9]

Career

[edit]

Chattopadhyay is noted for his pioneering contributions of innovative concepts, techniques and developments in high energy particle colliders, coherent and incoherent light sources, ultrafast sciences in the femto- and atto- second regimes, superconducting linear accelerators and various applications of interaction of particle and light beams.[10][11] He has directly contributed to the development of many accelerators around the world, e.g. the Super Proton-Antiproton Synchrotron at CERN,[9] the Advanced Light Source at Berkeley,[12] the asymmetric-energy electron-positron collider PEP-II at Stanford,[13] the Continuous Electron Beam Accelerator facility (CEBAF) at Jefferson Lab and the Free-Electron Lasers at Jefferson and Daresbury Laboratories.[14]

He was formerly the Sir John Cockcroft Chair of Physics jointly at the Universities of Liverpool, Manchester and Lancaster—the First Chair of accelerator physics in UK, named after the British Nobel Laureate credited with creating the field.[15][11] In this role he was the Inaugural Director of the Cockcroft Institute (UK), having been appointed in April 2007. Prior to this he served as associate director of Thomas Jefferson National Accelerator Facility (2001–2007),[16] staff/senior scientist and founding director of the Centre for Beam Physics at Lawrence Berkeley National Laboratory (1984–2001); and scientific attaché at CERN (1982–1984).[17]

After the period spent at CERN, Chattopadhyay returned to Lawrence Berkeley National Laboratory in 1984, where he led and defined the accelerator physics of the Advanced Light Source (ALS)[12] and contributed to the conceptual design of the Superconducting Super Collider (SSC),[18] pioneered the accelerator physics which underpinned the Berkeley-Stanford asymmetric B-factory (PEP-II) for CP-violation studies, and initiated the Berkeley FEL/Femtosecond X-ray Source and Laser-Plasma Acceleration development. He was a senior scientist, a guest professor, and the founder/director of the Center for Beam Physics at Berkeley,[19] until his move to Thomas Jefferson National Accelerator Facility in 2001 as the associate laboratory director for accelerators. At Thomas Jefferson National Accelerator Facility, he made critical advancements in microwave superconducting linear accelerators leading the way to current and future grand instruments of science such as the high precision CEBAF and its 12 GeV upgrade for precision research in hadronic physics,[20] Spallation Neutron Source at Oak Ridge National Laboratory, USA to advance neutron sciences and novel materials research, and the current superconducting version of the International Linear Collider, to name a few. His research at the Cockcroft Institute in UK included development of sources of "ultra-cold" relativistic free electron beams to advance coherent electron diffraction techniques; production of novel coherent and ultra-short pulses of photons (e.g. x-ray FELs); novel acceleration methods; investigation of photonic crystals and metamaterial structures for charged particle acceleration; novel high energy colliders.

While working for Fermilab and Northern Illinois University he contributed to cavity searches for dark matter; investigation of ultra-light dark matter and dark energy via atom interferometry, and the creation of the Matter-wave Atomic Gradiometer Interferometric Sensor (MAGIS-100) experiment.[21][22] Having contributed to the conception, design, construction, commissioning and operation of numerous accelerators for particle and nuclear physics, photon and neutron sciences around the world, with significant research accomplishments in advanced particle and photon beam physics,[23][24] and mentoring scientists around the world, in the developing nations in particular, in accelerator developments as a unifying global force among nations, Swapan Chattopadhyay is a frequently invited speaker and advisor at professional societies and government research agencies, serving on numerous editorial, advisory and review committees throughout the world.

He served as the Vice-Chair, Chair-elect, Chair and Past-Chair of the American Physical Society's Division of Physics of Beams (2007–2011). Chattopadhyay has delivered lectures throughout the world e.g. Saha Memorial Lecture,[25] Homi Bhabha Lecture, Raja Ramanna Memorial Lecture, and Cavendish Lecture among many.

References

[edit]
  1. ^ Chattopadhyay, Swapan (1 September 1982). "On stochastic cooling of bunched beams from fluctuation and kinetic theory". {{cite journal}}: Cite journal requires |journal= (help)
  2. ^ "NIU Today – NIU, Fermilab land noted physicist in joint appointment". NIU Today. Retrieved 26 April 2021.
  3. ^ "Berkeley Physics page". Retrieved 3 May 2023.
  4. ^ "APS Fellow Archive". www.aps.org. Retrieved 23 April 2021.
  5. ^ Science, American Association for the Advancement of (2005). "AAAS News and Notes". Science. 310 (5748): 634–637. doi:10.1126/science.310.5748.634. ISSN 0036-8075. S2CID 220094341.
  6. ^ "Professor Dr Swapan Chattopadhyay CorrFRSE". The Royal Society of Edinburgh. 15 March 2019. Retrieved 15 March 2019.
  7. ^ "DESY – SC – Members Scientific Council (September 2012)". 5 April 2013. Archived from the original on 5 April 2013. Retrieved 26 April 2021.
  8. ^ "Professional resume: Prof. Swapan Chattopadhyay" (PDF). Northern Illinois University, Department of Physics. May 2017.
  9. ^ a b Chattopadhyay, S; Dôme, Georges; Linnecar, Trevor Paul R; Boussard, Daniel (1984). "Feasibility study of stochastic cooling of bunches in the SPS". doi:10.5170/CERN-1984-015.197. {{cite journal}}: Cite journal requires |journal= (help)
  10. ^ "Swapan Chattopadhyay and Omar Chmaissem – NIU – Huskie Spotlight". 22 April 2017. Archived from the original on 22 April 2017. Retrieved 26 April 2021.
  11. ^ a b "Swapan Chattopadhyay appointed to the UKs first Chair of Accelerator Physics and to be the Inaugural Director of The Cockcroft Institute". Interactions. 14 November 2006. Retrieved 26 April 2021.
  12. ^ a b Jackson, A.; Chattopadhyay, S.; Keller, R.; Kim, C.; Nishimura, H.; Selph, F.; Zisman, M. (1 June 1988). "The LBL advanced light source". OSTI 6841206. {{cite journal}}: Cite journal requires |journal= (help)
  13. ^ Wienands, U.; Anderson, S.; Assmannt, R.; Bharadwaj, V.; Cai, Y.; Clendenin, J.; Corredoura, P.; Decker, F.J.; Donald, M.; Ecklund, S.; Emma, P. (March 1999). "Beam commissioning of the PEP-II High Energy Ring". Proceedings of the 1999 Particle Accelerator Conference (Cat. No.99CH36366). Vol. 5. pp. 2993–2995 vol.5. doi:10.1109/PAC.1999.792123. ISBN 0-7803-5573-3. S2CID 91179466.
  14. ^ Freyberger, Arne; Beard, Kevin; Bogacz, S.; Chao, Yu-Chiu; Chattopadhyay, Swapan; Douglas, David; Hutton, Andrew; Merminga, Nikolitsa; Tennant, Christopher; Tiefenback, Michael (1 July 2004). "The CEBAF Energy Recovery Experiment: Update and Future Plans". OSTI 833909. {{cite journal}}: Cite journal requires |journal= (help)
  15. ^ Kaplan, Karen H. (March 2007). "In brief". Physics Today. 60 (3): 78. Bibcode:2007PhT....60c..78K. doi:10.1063/1.2718767. ISSN 0031-9228.
  16. ^ "People". CERN Courier. 41 (3): 34. April 2001.
  17. ^ "INSPIRE: Swapan Chattopadhyay author profile". inspirehep.net. Retrieved 26 April 2021.
  18. ^ Chao, A.; Chattopadhyay, S.; Courant, E.; Hutton, A.; Keil, E.; Kurokawa, S.; Lambertson, G.; Pedersen, F.; Rees, J.; Seeman, J.; Sessler, A. (1990). "Workshop summary". AIP Conference Proceedings. 214 (1): 2–5. Bibcode:1990AIPC..214....2C. doi:10.1063/1.39765. ISSN 0094-243X.
  19. ^ "ATAP News, April 2017". atap.lbl.gov. April 2017. Retrieved 26 April 2021.
  20. ^ Freyberger, Arne; Beard, Kevin; Bogacz, S.; Chao, Yu-Chiu; Chattopadhyay, Swapan; Douglas, David; Hutton, Andrew; Merminga, Nikolitsa; Tennant, Christopher; Tiefenback, Michael (2004). "The CEBAF Energy Recovery Experiment: Update and Future Plans". OSTI 833909. {{cite journal}}: Cite journal requires |journal= (help)
  21. ^ Abe, Mahiro; Adamson, Philip; Borcean, Marcel; Bortoletto, Daniela; Bridges, Kieran; et al. (1 October 2021). "Matter-wave Atomic Gradiometer Interferometric Sensor (MAGIS-100)". Quantum Science and Technology. 6 (4): 044003. arXiv:2104.02835. Bibcode:2021QS&T....6d4003A. doi:10.1088/2058-9565/abf719. S2CID 209178030.
  22. ^ "Faces and places: Chattopadhyay returns to new challenges in the US" (PDF). CERN Courier. 54 (7): 32. February 2014.
  23. ^ Chattopadhyay, Swapan (October 2002). "Viewpoint: Accelerators for nano- and biosciences". CERN Courier. 42 (8): 46.
  24. ^ Chattopadhyay, Swapan (March 2007). "Viewpoint: Amazing particles and light". CERN Courier. 47 (2): 50.
  25. ^ "Past Saha Memorial Lectures". Saha Institute of Nuclear Physics. Retrieved 26 April 2021.
[edit]
Retrieved from "https://en.wikipedia.org/w/index.php?title=Swapan_Chattopadhyay&oldid=1179141938"