Research output per year
Research output per year
cand. scient.
Blegdamsvej 17
2100 København Ø
Research activity per year
CURRICULUM VITAE for Hans Bøggild
Born in Københhavn 16/7 1942
Nationality Danish, married, two children
Student from Sortedams Gymnasium june 1961
Cand Scient at Copenhagen University 13/7 1967
Scientific Associate at the Niels Bohr Inst 1/7 1967 - 31/7 1969
Soldat 1/8 1969 - 31/7 1970
Scientific Associate at NBI 1/8 1970 - 31/1 1971
CERN Fellow (Geneva) 1/2 1971 - 31/1 1973
Lektor at NBI 1/2 - 1973
CERN Corresponding Fellow (3 * 3 months) 1981 – 1983
CERN Corresponding Fellow (3 * 3 months) 1990 – 1992
Forskningsleder for Subatomar Fysik 2005 -
Participation in Experiments (at CERN and Brookhaven) :
Scandinavian Bubble Chamber Collaboration 1965 - 1975
British - Scandinavian ISR experiment (R203) 1971 - 1975
British - Scandinavian - MIT (R803) 1973 - 1978
British-French-Scandinavian Collab. (R410/413) 1976 - 1979
Axial Field Spectrometer (R807/808) 1977 - 1988
(Spokesman 1984 - )
The Helios Collaboration (NA 34) 1986 - 1990
The Focussing Spectrometer (NA44) 1988 - 2003
( Spokesman 1988 - )
The BRAHMS Experiment at RHIC 1996 –
The ALICE Experiment at CERN 1996 –
(in Alice Management Board since 1996)
(Deputy Chairman of Collaboration Board)
Experiments Committies & Advisery Committies
ISRC Committee nov 1975 - nov 1977
LEP Committee jan 1982 - june 1983
SPSC Committee jan 1988 - jan 1991
PAC for The Svedberg Laboratory,Uppsala dec 1987 - dec 1990
CERN Courier Advisory Panel jan 1986 - dec 1991
Boards etc :
Det Naturvidenskabelige Fakultetsråd 1980 - 1986
High Energy Particle Physics Board of the EPS 1981 - 1989
Associate editor of Physica Scripta 1983 - 1986
Vice-chairman of the Niels Bohr Institute 1993 – 1999
Member of the Niels Bohr Institute Board 1993 – 2004
Editor of the Niels Bohr Institute ACTIVITY REPORT 1996 - 2004
Danish Scientific Delegate for the CERN Council june 2004 -
Deltagelse i ALICE eksperimentet ved Large Hadron Collider i CERN. Ved sammenstød af tunge kerner ved ultrahøje energier studeres stoftilstanden 'Quark Gluon Plasma' hvor energitætheden er så høj at quarker og gluoner for en kort stund er frie partikler. Vore univers var efter Big Bang teorien i denne tilstand ca 1 milliontedel sekund efter sin skabelse.
Research output: Contribution to journal › Journal article › Research › peer-review
Research output: Contribution to journal › Journal article › Research › peer-review
Research output: Contribution to journal › Journal article › Research › peer-review
Research output: Contribution to journal › Journal article › Research › peer-review
Research output: Contribution to journal › Journal article › Research › peer-review
Research output: Contribution to journal › Journal article › Research › peer-review
Research output: Contribution to journal › Journal article › Research › peer-review
Research output: Contribution to journal › Journal article › Research › peer-review