Erik B. Karlsson
Professor at Department of Physics and Astronomy; Materials Physics
- Telephone:
- +46 18 471 35 35
- E-mail:
- erik.karlsson@physics.uu.se
- Visiting address:
- Ångströmlaboratoriet, Lägerhyddsvägen 1
- Postal address:
- Box 516
751 20 UPPSALA
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Short presentation
With a previous background in experimental nuclear physics, hyperfine interactions and magnetism, my interests are now centered on quantum phenomena in solids, in particular quantum diffusion and quantum entanglement of particles and their associated decoherence processes.
Biography
Detta innehåll finns inte på svenska, därför visas den engelska versionen.
After a Ph.D at Uppsala University in 1962 I served as a lecturer in physics at the University for Agriculture before I was appointed full professor at Uppsala University in 1975. My field of research was first nuclear magnetism and its applications. I spent the period 1977 -1980 at the particle physics laboratory CERN in Geneva, Switzerland, where I developed methods for the use of positive muons for studies of magnetism in condensed matter and for diffusion of light particles in metals, particularly by tunneling [1]. During the 1980’s the latter studies were complemented by investigation of hydrogen diffusion in thin metallic films using other nuclear methods. In the year 1989 I was invited professor at Université Joseph Fourier in Grenoble. France, where I worked on magnetization dynamics. My interest in tunneling phenomena in solids led after my retirement (in 1996) to studies of quantum entanglement and quantum decoherence based on neutron scattering experiments at Rutherford-Appleton Laboratory in UK.
I was elected member of the Royal Swedish Academy of Sciences in 1982 and was during the period 1987-1996 member of its Nobel committee for physics, the last year as its chairman. In1997. I hosted the Nobel symposium “Modern Studies of Basic Quantum Concepts and Phenomena” [2] and in 2001 I wrote ”100 years of Nobel Prizes in Physics” in connection with the 100 year Nobel jubilee [3].
Over the period 1981 – 1997 I was one of the editors of the journal Nuclear Instruments and Methods A (together with Kai Siegbahn). Author of the monography “Solid State Phenomena, as studied by muons, protons and excited nuclei” 1997 [4]. Rewarded by Björkénska Priset, Uppsala University, 1995.
Recent works include a review of the “hydrogen anomaly problem” in neutron scattering, including aspects on quantum entanglement and its decoherence [5] and a discussion of the “quantum measurement problem” [6]. Outside the professional area I have published books on my life as a physicist [7] and about countryside life in my youth in the province of Värmland [8].
1. Karlsson, E. B (2014).The positive muon implanted in metals - a story full of surprises. European Physical Journal H, 39(3): 303-3232.
2. Karlsson, Erik B (1997). Solid state phenomena, studied by muons, protons and excited nuclei; Clarendon Press; Oxford
3. Karlsson, Erik B (2002).The Nobel Prize; the First 100 years. World Scientific, Singapore, Eds. A. Wallin Levinovits and N. Ringertz (p.31- 69). Also: http://nobelprize.org/obel-prizes/physics/articles.
4. Karlsson, Erik B and Brändas, Erkki, editors (1998) Modern studies of basic quantum concepts and phenomena; World Scientific, Singapore, 1988.
5. Karlsson, E.B (2018).The hydrogen anomaly problem in neutron Compton scattering. Physica Scripta, 93(3), 035801.
6. Karlsson, Erik B (2017). Mätproblemet, Kosmos (Swedish Physical Siciety journal) 2017, (p.98-120), ISBN 978-91-639-5177-0.
7. Karlsson, Erik B (2013). Vandringar i fysikens värld. ISBN-978-91-7569-353-8.
8. Karlsson, Erik (2016). Livet I ett hörn av Svanskog 1930-1950, ISBN-978-91-637-3879-1.
After a Ph.D at Uppsala University in 1962 I served as a lecturer in physics at the University for Agriculture before I was appointed full professor at Uppsala University in 1975. My field of research was first nuclear magnetism and its applications. I spent the period 1977 -1980 at the particle physics laboratory CERN in Geneva, Switzerland, where I developed methods for the use of positive muons for studies of magnetism in condensed matter and for diffusion of light particles in metals, particularly by tunneling [1]. During the 1980’s the latter studies were complemented by investigation of hydrogen diffusion in thin metallic films using other nuclear methods. In the year 1989 I was invited professor at Université Joseph Fourier in Grenoble. France, where I worked on magnetization dynamics. My interest in tunneling phenomena in solids led after my retirement (in 1996) to studies of quantum entanglement and quantum decoherence based on neutron scattering experiments at Rutherford-Appleton Laboratory in UK.
I was elected member of the Royal Swedish Academy of Sciences in 1982 and was during the period 1987-1996 member of its Nobel committee for physics, the last year as its chairman. In1997. I hosted the Nobel symposium “Modern Studies of Basic Quantum Concepts and Phenomena” [2] and in 2001 I wrote ”100 years of Nobel Prizes in Physics” in connection with the 100 year Nobel jubilee [3].
Over the period 1981 – 1997 I was one of the editors of the journal Nuclear Instruments and Methods A (together with Kai Siegbahn). Author of the monography “Solid State Phenomena, as studied by muons, protons and excited nuclei” 1997 [4]. Rewarded by Björkénska Priset, Uppsala University, 1995.
Recent works include a review of the “hydrogen anomaly problem” in neutron scattering, including aspects on quantum entanglement and its decoherence [5] and a discussion of the “quantum measurement problem” [6]. Outside the professional area I have published books on my life as a physicist [7] and about countryside life in my youth in the province of Värmland [8].
1. Karlsson, E. B (2014).The positive muon implanted in metals - a story full of surprises. European Physical Journal H, 39(3): 303-3232.
2. Karlsson, Erik B (1997). Solid state phenomena, studied by muons, protons and excited nuclei; Clarendon Press; Oxford
3. Karlsson, Erik B (2002).The Nobel Prize; the First 100 years. World Scientific, Singapore, Eds. A. Wallin Levinovits and N. Ringertz (p.31- 69). Also: http://nobelprize.org/obel-prizes/physics/articles.
4. Karlsson, Erik B and Brändas, Erkki, editors (1998) Modern studies of basic quantum concepts and phenomena; World Scientific, Singapore, 1988.
5. Karlsson, E.B (2018).The hydrogen anomaly problem in neutron Compton scattering. Physica Scripta, 93(3), 035801.
6. Karlsson, Erik B (2017). Mätproblemet, Kosmos (Swedish Physical Siciety journal) 2017, (p.98-120), ISBN 978-91-639-5177-0.
7. Karlsson, Erik B (2013). Vandringar i fysikens värld. ISBN-978-91-7569-353-8.
8. Karlsson, Erik (2016). Livet I ett hörn av Svanskog 1930-1950, ISBN-978-91-637-3879-1.
Publications
Selection of publications
- Entanglement created in scattering processes (2021)
- Quantum entanglement in low-energy neutron-proton scattering and its possible consequences (2020)
- The hydrogen anomaly problem in neutron Compton scattering (2018)
- The hydrogen anomaly in neutron Compton scattering (2016)
- Entanglement creation in Compton scattering of neutrons on protons and its possible energetic consequences (2015)
- The positive muon implanted in metals - a story full of surprises (2014)
- Final state effects in the neutron Compton scattering on hydrogen molecules-a new approach (2012)
- Interpretation of the hydrogen anomaly in neutron and electron compton scattering (2012)
- Metallic superlattices: Quasi two-dimensional playground for hydrogen (1997)
Recent publications
- Specific quantum effects in low energy neutron scattering from protons (2024)
- Quantum effects of neutron scattering on indistinguishable particles (2023)
- Scattering by atoms in zero-point states (2022)
- Internal dynamics in condensed matter, as studied by spin relaxation (2022)
- Entanglement created in scattering processes (2021)
All publications
Articles
- Specific quantum effects in low energy neutron scattering from protons (2024)
- Quantum effects of neutron scattering on indistinguishable particles (2023)
- Scattering by atoms in zero-point states (2022)
- Internal dynamics in condensed matter, as studied by spin relaxation (2022)
- Entanglement created in scattering processes (2021)
- Quantum entanglement in low-energy neutron-proton scattering and its possible consequences (2020)
- The hydrogen anomaly problem in neutron Compton scattering (2018)
- The hydrogen anomaly in neutron Compton scattering (2016)
- Entanglement creation in Compton scattering of neutrons on protons and its possible energetic consequences (2015)
- The positive muon implanted in metals - a story full of surprises (2014)
- Final state effects in the neutron Compton scattering on hydrogen molecules-a new approach (2012)
- Interpretation of the hydrogen anomaly in neutron and electron compton scattering (2012)
- Quantum coherence of protons in metal hydrides (2005)
- Quantum coherence in neutron scattering on protons (2004)
- Metallic superlattices: Quasi two-dimensional playground for hydrogen (1997)
- Muon Diffusion in Nb-H Systems (1986)