Myer Bloom: Difference between revisions
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Bloom received his B.S. and M.S. from McGill University and his Ph.D. from the University of Illinois at Urbana. He was supported by an NRC Travelling Postdoctoarl Fellowship at Leiden University from 1954 to 1956. At the University of British Columbia, he was a research associate in 1956–1957, an assistant professor in 1957–1960, an associate professor in 1960–1963, a full professor in 1963–1994, and professor emeritus from 1995 until his death. He was a visiting professor at Harvard University, Kyoto University, the University of Paris Sud, the University of Rome, and the Danish Technical University.<ref name="WhoWho">{{cite journal|title=Bloom, Myer|journal=International Who's Who 2004|page=p. 179|url=https://books.google.com/books?id=sR4Ch1dMe8IC&pg=PA179}}</ref> |
Bloom received his B.S. and M.S. from McGill University and his Ph.D. from the University of Illinois at Urbana. He was supported by an NRC Travelling Postdoctoarl Fellowship at Leiden University from 1954 to 1956. At the University of British Columbia, he was a research associate in 1956–1957, an assistant professor in 1957–1960, an associate professor in 1960–1963, a full professor in 1963–1994, and professor emeritus from 1995 until his death. He was a visiting professor at Harvard University, Kyoto University, the University of Paris Sud, the University of Rome, and the Danish Technical University.<ref name="WhoWho">{{cite journal|title=Bloom, Myer|journal=International Who's Who 2004|page=p. 179|url=https://books.google.com/books?id=sR4Ch1dMe8IC&pg=PA179}}</ref> |
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{{blockquote|Bloom’s first important work in Leiden was to carry out the very first NMR studies of fluid and solid H<sub>2</sub> and HD. During that period he also performed seminal work with prof. van Kranendonk showing how nuclear spins relax in antiferromagnetic crystals. After returning to Canada to join UBC, Bloom set up a research program to study molecular solids, and he and his group managed to measure relaxation times over a broad temperature range, putting them in a position, via a theoretical analysis, to obtain information about molecular interaction potentials. They also for the first time achieved a measurement of the transitions between ortho, para, and meta nuclear spin symmetries in solid methane. Further pioneering studies involved studies of relaxation in a pure <sup>3</sup>He gas in two and three dimensions.<ref name="PhysicsTodayObit">{{cite journal|author=Mouritsen, Ole G.|title=Obituary. Myer Bloom|journal=Physics Today (Daily Edition)|url=http://scitation.aip.org/content/aip/magazine/physicstoday/news/10.1063/PT.5.6208}}</ref>}} |
{{blockquote|Bloom’s first important work in Leiden was to carry out the very first NMR studies of fluid and solid H<sub>2</sub> and HD. During that period he also performed seminal work with prof. van Kranendonk showing how nuclear spins relax in antiferromagnetic crystals. After returning to Canada to join UBC, Bloom set up a research program to study molecular solids, and he and his group managed to measure relaxation times over a broad temperature range, putting them in a position, via a theoretical analysis, to obtain information about molecular interaction potentials. They also for the first time achieved a measurement of the transitions between ortho, para, and meta nuclear spin symmetries in solid methane. Further pioneering studies involved studies of relaxation in a pure <sup>3</sup>He gas in two and three dimensions.<ref name="PhysicsTodayObit">{{cite journal|author=Mouritsen, Ole G.|title=Obituary. Myer Bloom|journal=Physics Today (Daily Edition)|url=http://scitation.aip.org/content/aip/magazine/physicstoday/news/10.1063/PT.5.6208}}</ref>}} |
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{{blockquote|Myer Bloom embarked on a new research area inspired by his early work as a student with Erwin Hahn on pulsed magnetic induction in nuclear quadrupolar resonance and the then-new spin-echo techniques. Bloom realized that this provided the foundation for a novel approach to solid-state NMR studies of biological systems in which protons could be substituted by deuterons. Using these techniques Bloom, in collaboration with Ian Smith, managed to obtain the very first deuterium NMR spectrum of a biological membrane. This is possibly Myer Bloom’s most important and influential scientific contribution since it could be applied in a range of fields. The technique allowed recording of an essentially undistorted Fourier transform <sup>2</sup>H spectrum, and research groups around the world within membrane biophysics and biochemistry have since used the technique routinely.<ref name=PhysicsTodayObit/>}} |
{{blockquote|Myer Bloom embarked on a new research area inspired by his early work as a student with Erwin Hahn on pulsed magnetic induction in nuclear quadrupolar resonance and the then-new spin-echo techniques. Bloom realized that this provided the foundation for a novel approach to solid-state NMR studies of biological systems in which protons could be substituted by deuterons. Using these techniques Bloom, in collaboration with Ian Smith, managed to obtain the very first deuterium NMR spectrum of a biological membrane. This is possibly Myer Bloom’s most important and influential scientific contribution since it could be applied in a range of fields. The technique allowed recording of an essentially undistorted Fourier transform <sup>2</sup>H spectrum, and research groups around the world within membrane biophysics and biochemistry have since used the technique routinely.<ref name=PhysicsTodayObit/>}} |
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{{blockquote|He is very well known internationally for his fundamental contributions to Nuclear Magnetic Resonance Physics, and to the applications of NMR to probe the structure and dynamics of biological membranes. Some of his best-known contributions were in defining the proton and deuteron NMR lineshapes from hydrogen nuclei in lipid hydrocarbon chains in both large multilamellar preparations and in smaller lipid vesicles, as well as in the presence of membrane proteins. He created the ‘dePakeing’ technique, which enables the extraction of single orientation deuteron NMR spectra from powder pattern spectra obtained from lipid hydrocarbon chains.<ref>[http://www.phas.ubc.ca/dr-myer-bloom-1928-2016 Myer Bloom (1928–2016) | UBC Physics & Astronomy]</ref>}} |
{{blockquote|He is very well known internationally for his fundamental contributions to Nuclear Magnetic Resonance Physics, and to the applications of NMR to probe the structure and dynamics of biological membranes. Some of his best-known contributions were in defining the proton and deuteron NMR lineshapes from hydrogen nuclei in lipid hydrocarbon chains in both large multilamellar preparations and in smaller lipid vesicles, as well as in the presence of membrane proteins. He created the ‘dePakeing’ technique, which enables the extraction of single orientation deuteron NMR spectra from powder pattern spectra obtained from lipid hydrocarbon chains.<ref>[http://www.phas.ubc.ca/dr-myer-bloom-1928-2016 Myer Bloom (1928–2016) | UBC Physics & Astronomy]</ref>}} |
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==Legacy== |
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He had a wife, a son, and a daughter.<ref name=WhoWho/> He published in 2014 a book of personal recollections ''Lucky Hazards: My Life in Physics''.<ref>{{cite journal|author=Joós, Béla|title=Review: ''Lucky Hazards: My Life in Physics'' by Meyer Bloom|journal=Physics in Canada|year=2015|volume=71|issue=3|pages=226|url=http://www.biophysicalsociety.ca/docs/LuckyHazardsreview.pdf}}</ref> |
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==Awards and honours== |
==Awards and honours== |
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Revision as of 13:51, 3 April 2016
Myer Bloom | |
|---|---|
| Born | 7 December 1928 Montreal |
| Died | 9 February 2016 Vancouver |
| Awards | C.A.P. Gold Medal (1973) |
| Scientific career | |
| Fields | Physics |
| Institutions | University of British Columbia |
Myer Bloom, FRSC (1928 – 2016) was a Canadian physicist, specializing in the theory and applications of NMR.
Education and career
Bloom received his B.S. and M.S. from McGill University and his Ph.D. from the University of Illinois at Urbana. He was supported by an NRC Travelling Postdoctoarl Fellowship at Leiden University from 1954 to 1956. At the University of British Columbia, he was a research associate in 1956–1957, an assistant professor in 1957–1960, an associate professor in 1960–1963, a full professor in 1963–1994, and professor emeritus from 1995 until his death. He was a visiting professor at Harvard University, Kyoto University, the University of Paris Sud, the University of Rome, and the Danish Technical University.[1]
Bloom’s first important work in Leiden was to carry out the very first NMR studies of fluid and solid H2 and HD. During that period he also performed seminal work with prof. van Kranendonk showing how nuclear spins relax in antiferromagnetic crystals. After returning to Canada to join UBC, Bloom set up a research program to study molecular solids, and he and his group managed to measure relaxation times over a broad temperature range, putting them in a position, via a theoretical analysis, to obtain information about molecular interaction potentials. They also for the first time achieved a measurement of the transitions between ortho, para, and meta nuclear spin symmetries in solid methane. Further pioneering studies involved studies of relaxation in a pure 3He gas in two and three dimensions.[2]
Myer Bloom embarked on a new research area inspired by his early work as a student with Erwin Hahn on pulsed magnetic induction in nuclear quadrupolar resonance and the then-new spin-echo techniques. Bloom realized that this provided the foundation for a novel approach to solid-state NMR studies of biological systems in which protons could be substituted by deuterons. Using these techniques Bloom, in collaboration with Ian Smith, managed to obtain the very first deuterium NMR spectrum of a biological membrane. This is possibly Myer Bloom’s most important and influential scientific contribution since it could be applied in a range of fields. The technique allowed recording of an essentially undistorted Fourier transform 2H spectrum, and research groups around the world within membrane biophysics and biochemistry have since used the technique routinely.[2]
He is very well known internationally for his fundamental contributions to Nuclear Magnetic Resonance Physics, and to the applications of NMR to probe the structure and dynamics of biological membranes. Some of his best-known contributions were in defining the proton and deuteron NMR lineshapes from hydrogen nuclei in lipid hydrocarbon chains in both large multilamellar preparations and in smaller lipid vesicles, as well as in the presence of membrane proteins. He created the ‘dePakeing’ technique, which enables the extraction of single orientation deuteron NMR spectra from powder pattern spectra obtained from lipid hydrocarbon chains.[3]
Legacy
He had a wife, a son, and a daughter.[1] He published in 2014 a book of personal recollections Lucky Hazards: My Life in Physics.[4]
Awards and honours
- Sloan Fellow (1961–1965)
- Guggenheim Fellow (1962–1963)
- Steacie Prize (1967)
- Jacob Biely Faculty Research Prize of UBC (1969)
- Canadian Association of Physicists Gold Medal (1973)
- Izaak Walton Killam Memorial Prize for Natural Sciences (1995)[1]
References
- ^ a b c "Bloom, Myer". International Who's Who 2004: p. 179.
{{cite journal}}:|page=has extra text (help) - ^ a b Mouritsen, Ole G. (14 March 2016). "Obituary. Myer Bloom". Physics Today (Daily Edition).
- ^ Myer Bloom (1928–2016) | UBC Physics & Astronomy
- ^ Joós, Béla (2015). "Review: Lucky Hazards: My Life in Physics by Meyer Bloom" (PDF). Physics in Canada. 71 (3): 226.