Age, Biography and Wiki
Herwig Schopper was born on 28 February, 1924 in Lanškroun, Czechoslovakia, is a Particle physicist. Discover Herwig Schopper'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 100 years old?
| Popular As |
N/A |
| Occupation |
N/A |
| Age |
100 years old |
| Zodiac Sign |
Pisces |
| Born |
28 February, 1924 |
| Birthday |
28 February |
| Birthplace |
Lanškroun, Czechoslovakia |
| Nationality |
Slovakia
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We recommend you to check the complete list of Famous People born on 28 February.
He is a member of famous with the age 100 years old group.
Herwig Schopper Height, Weight & Measurements
At 100 years old, Herwig Schopper height not available right now. We will update Herwig Schopper's Height, weight, Body Measurements, Eye Color, Hair Color, Shoe & Dress size soon as possible.
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| Height |
Not Available |
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Not Available |
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Not Available |
| Eye Color |
Not Available |
| Hair Color |
Not Available |
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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| Parents |
Not Available |
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Not Available |
| Sibling |
Not Available |
| Children |
Not Available |
Herwig Schopper Net Worth
His net worth has been growing significantly in 2023-2024. So, how much is Herwig Schopper worth at the age of 100 years old? Herwig Schopper’s income source is mostly from being a successful . He is from Slovakia. We have estimated Herwig Schopper'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 |
| House |
Not Available |
| Cars |
Not Available |
| Source of Income |
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Herwig Schopper Social Network
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Timeline
Herwig Franz Schopper (born 28 February 1924) is a German experimental physicist.
In 1950–51 he was a research assistant with Lise Meitner at Stockholm and in 1956–57 at the Cavendish Laboratory under Otto Robert Frisch.
During these fellowships, Schopper worked on nuclear physics and contributed substantially to the evidence of parity violation in weak interactions.
He measured the circular polarization of gamma rays following a beta decay, thought unfeasible by Lee and Yang, and showed in the same experiment that the helicities of neutrino and antineutrino are opposite.
Later, he was involved in an experiment to test time reversal symmetry.
In 1956, he followed Fleischmann to the University of Erlangen where he continued to do research in optics and solid-state physics, with emphasis on thin metal layers, which he had started at Hamburg.
Also he developed, along with Clausnitzer, the first source of polarised protons.
In 1957 he became Privatdozent at the University of Erlangen.
From 1958 to 1961, Schopper was an associate professor at the University of Mainz where he established the Institute for Experimental Nuclear Physics.
In 1960–61 he worked under Robert R. Wilson at Cornell University to be introduced to elementary particle physics, namely the use of electron scattering to study the structure of the proton and neutron.
Schopper was appointed professor at the University of Karlsruhe in 1961 and director of the newly established Institutes for Experimental Nuclear Physics of TH Karlsruhe and the Karlsruhe Nuclear Research Centre.
In order to continue his research on electron scattering he set up a group to carry out one of the first experiments at DESY.
He also created a group at CERN to investigate neutron scattering at high energies at the Proton Synchrotron (PS) and Intersecting Storage Rings (ISR).
These experiments where then continued at the Institute for High Energy Physics (IHEP) in Serpukhov, Russia.
The group made important contributions to the study of neutron-proton and neutron-nuclei scattering cross sections.
For this purpose, the first hadron calorimeter was developed and optimised by Monte Carlo simulations.
Another group at Karlsruhe developed the first superconducting high frequency cavities in Europe, a technology which was transferred to CERN for particle separators and later for particle acceleration at LEP.
At CERN, he was a research associate in 1966–67, became division leader of the Nuclear Physics Division in 1970, member of the directorate responsible for the co-ordination of the experimental programme until 1973 and chairman of the ISR Committee from 1973 to 1976.
In 1973 Schopper became professor at the University of Hamburg and the chairman of the directorate of DESY, serving until end of 1980.
He was responsible for the installation of the ARGUS detector at DORIS which later resulted in the first evidence of B – B bar mixing.
Also, by establishing HASYLAB at DORIS synchrotron light science became an important branch of research at DESY.
He proposed and completed the construction of the electron-positron collider PETRA which led to the discovery and study of the gluon.
During his mandate, DESY, a national laboratory became as far as science was concerned an international particle physics laboratory.
This included the start of the first collaboration with China.
From 1977 to 1979, Schopper was chairman of the Association of the German Large Research Centres (now Helmholtz Association) and member of various advisory bodies of the Federal Ministry of Research, the Deutsche Forschungs Gemeinschaft and the Max Planck Society.
He was the director general of CERN from 1981 to 1988.
Schopper was born in Lanškroun, Czechoslovakia, to a family of Austrian descent.
He obtained his diploma and doctorate from the University of Hamburg, studying under Wilhelm Lenz and Rudolf Fleischmann.
After being member of the Scientific Policy Committee at CERN, Schopper was elected director general and served from 1981 to 1988.
His first task was to unite the two CERN laboratories existing at that time under two Directors General.
The Large Electron–Positron Collider (LEP) was also proposed and constructed under his leadership.
This facility allowed the verification of the standard model of particle physics, namely that it is a renormalizable field theory, leading to the award of the Nobel Prize to the theoreticians Veltman and t'Hooft.
Furthermore, it enabled the precise determination of fundamental parameters of the electroweak force, such as the
W± and Z masses, and proved the existence of three neutrino families.
Thus, this particle accelerator transformed high energy physics into a field of precision measurements and provided estimates to the mass of the top quark, Higgs boson and other supersymmetric and hypothetical particles.
LEP was approved under the condition of a reduced and constant budget with the consequence that some unique activities at CERN (e.g. ISR) had to be abandoned.
Schopper was obliged to introduce a new way of international collaboration for the four LEP experiments since CERN could not provide funds for them.
The experiments became rather independent activities organised in a rather democratic way bringing together hundreds of scientists from many universities and national organisations.
The LEP experiments became a model for the later LHC experiments, shaping the way this organization works today.
He contributed to the globalisation of research at CERN and was also responsible for the return of Spain and Portugal in the CERN's member states.
