Age, Biography and Wiki
Paul Corkum was born on 30 October, 1943 in Saint John, New Brunswick, is a Canadian physicist (born 1943). Discover Paul Corkum's Biography, Age, Height, Physical Stats, Dating/Affairs, Family and career updates. Learn How rich is he in this year and how he spends money? Also learn how he earned most of networth at the age of 80 years old?
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| Age |
80 years old |
| Zodiac Sign |
Scorpio |
| Born |
30 October, 1943 |
| Birthday |
30 October |
| Birthplace |
Saint John, New Brunswick |
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We recommend you to check the complete list of Famous People born on 30 October.
He is a member of famous with the age 80 years old group.
Paul Corkum Height, Weight & Measurements
At 80 years old, Paul Corkum height not available right now. We will update Paul Corkum's Height, weight, Body Measurements, Eye Color, Hair Color, Shoe & Dress size soon as possible.
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Dating & Relationship status
He is currently single. He is not dating anyone. We don't have much information about He's past relationship and any previous engaged. According to our Database, He has no children.
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Not Available |
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Paul Corkum Net Worth
His net worth has been growing significantly in 2023-2024. So, how much is Paul Corkum worth at the age of 80 years old? Paul Corkum’s income source is mostly from being a successful . He is from . We have estimated Paul Corkum's net worth, money, salary, income, and assets.
| Net Worth in 2024 |
$1 Million - $5 Million |
| Salary in 2024 |
Under Review |
| Net Worth in 2023 |
Pending |
| Salary in 2023 |
Under Review |
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Not Available |
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Not Available |
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Paul Corkum Social Network
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Timeline
Paul Bruce Corkum (born October 30, 1943) is a Canadian physicist specializing in attosecond physics and laser science.
He holds a joint University of Ottawa–NRC chair in attosecond photonics.
He also holds academic positions at Texas A&M University and the University of New Mexico.
Corkum is both a theorist and an experimentalist.
Paul Corkum was born in Saint John, New Brunswick.
He obtained his BSc (1965) from Acadia University, Nova Scotia, and his MSc (1967) and PhD (1972) in theoretical physics from Lehigh University, Pennsylvania.
He won several awards for his work on laser science.
In the 1980s he developed a model of the ionization of atoms (i.e. plasma production) and on this basis proposed a new approach to making X-ray lasers, under the name of optical field ionization (OFI).
The OFI lasers are today one of the most important developments in X-ray laser research.
In the early 1990s in strong field atomic physics there were discoveries of high harmonic generation and correlated double ionization (in which an atom can absorb hundreds of photons and emit two electrons).
Corkum's recollision electron model served as the basis for the generation of attosecond pulses from lasers.
From 1997 to 2009, he was the adjunct professor of physics at McMaster University.
With this method in 2001 Corkum with colleagues in Vienna succeeded in demonstrating for the first time laser pulse lengths lasting less than 1 femtosecond.
The method was used for the generation of higher harmonics and (as a type of laser tunneling microscope) for exploration of atoms and molecules in the angstrom range and below.
Corkum's recollision electron physics has led to many advances in understanding the interactions among coherent electrons, coherent light, and coherent atoms or molecules.
The recollision electron can be thought of as an electron interferometer built by laser light generated from atoms or molecules.
As an interferometer, the recollision electron can be used to measure atomic and molecular orbitals by means of interfering waves from the bound electrons and the recollision electrons.
In 2018, Corkum was the first Canadian to be awarded the Isaac Newton Medal by the Institute of Physics for his outstanding contributions to experimental physics and to attosecond science and for pioneering work which has led to the first-ever experimental image of a molecular orbital and the first-ever space–time image of an attosecond pulse.
Attosecond techniques can freeze the motion of electrons within atoms and molecules, observe quantum mechanical orbitals, and follow chemical reactions.
