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The 1996 Carg se Summer Institute on Frontiers in Particle Physics
was organized by the Universite Pierre et Marie Curie, Paris (M.
Levy), the Ecole Nonnale SupCrieure, Paris (J. lliopoulos), the
Katholieke Universiteit Leuven (R. Gastmans), and the Universite
Catholique de Louvain (J.-M. Gerard), which, since 1975, have
joined their efforts and worked in common. It was the twelfth
Sunnner Institute on High Energy Physics organized jointly at Carg
se by three of these universities. The Standard Model for
fundamental interactions is constructed on two essential
ingredients: the gauge symmetry and the mass generation mechanism.
Now that the gauge theory aspect has been finnly established, the
new challenge for the young researchers in elementary particle
physics is the understanding of the origin of the masses. The
standard Higgs mechanism is believed to be responsible for
generating the masses of ALL fundamental particles. Professor D.
Treille discussed the prospects for Higgs boson search and
described the experimental determinations of the gauge boson
masses. The influence of the top quark mass on electroweak
processes has been emphasized by Professor J.L. Rosner, while
Professor M. Neubert introduced the heavy-quark effective theory
which allows you to get rid of heavy-quark masses. The theoretical
determinations of the light quark masses have been critically
analyzed by Professor H. Leutwyler. Professor A. Pich presented the
various experimental tests on lepton universality and Professor
R.L. MBssbauer reviewed our present knowledge on the neutrino
masses."
For more than 25 years the Standard Model of particle physics has
withstood the confrontation with experimental results of increasing
precision, but this does not imply that the Standard Model can
answer all questions about the ultimate constituents of nature.
This book presents a critical examination of the latest
experimental results and confronts them with the predictions of the
Standard Model. Besides discussions of accelerator results from
LEP, HERA and the TEVATRON, attention is paid to the unresolved
problems of neutrino oscillations, CP violation, dark matter and
cosmology. New theoretical ideas are also analyzed in order to
explore possible extensions of the standard model. Realistic plans
for future accelerators are presented and their physics potential
is discussed, paving the way for the next generation of particle
physics experiments.
The 1990 Cargese Summer Institute on ZO-Physics was organized by
the Univer- site Pierre et Marie Curie, Paris (M. Levy and J.-L.
Basdevant), CERN (M. Jacob), the Universite Catholique de Louvain
(D. Speiser and J. Weyers), and the Katholieke Universiteit te
Leuven (R. Gastmans), which, since 1975, have joined their efforts
and worked in common. It was the ninth Summer Institute on High
Energy Physics orga- nized jointly at Cargese by these three
universities. Because of the start-up of LEP in the summer of 1989,
we broke with our tradition of having our Summer Institutes in the
odd years. Indeed, it seemed to us that the many new data from LEP
had to be presented in detail as soon as possible in order to
prepare the young researchers in particle physics better for the
experimental results with which they will be confronted in the
coming years. The main theme of the school was therefore
ZO-physics, with particular emphasis on the way the experiments at
LEP are analyzed. We had one lecturer from each LEP experiment:
they agreed among each other to present different topics in e+e-
physics. Nevertheless, they made sure that all the major topics
were discussed and that the results could be critically compared.
The 1994 Cargese Summer Institute on Frontiers in Partide Physics
was organized by the Universite Pierre et Marie Curie, Paris (M.
Levy), the Ecole Normale Superieure, Paris (J. Iliopoulos), the
Katholieke Universiteit Leuven (R. Gastmans), and the Uni- versite
Catholique de Louvain (J. -M. Gerard), which, since 1975, have
joined their efforts and worked in common. It was the eleventh
Summer Institute on High Energy Physics organized jointly at
Cargese by three of these universities. Severa! new frontiers in
partide physics were thoroughly discussed at this school. the new
euergy range in deep-iuelastic electron-proton scattering is beiug
In particular, explored by HERA (DESY, Hamburg), and Professor A.
De Roeck described the first results from the H1 and Zeus
experiments, while Professors A. H. Mueller aud Z. Kuuszt discussed
their relevance from the theoretical point of view. Also, the
satellite exper- iments offer new possibilities for exploring the
links between astrophysics, cosmology, and partide physics. A
critica] a. nalysis of these experiments was performed by Pro-
fessor B. Sadoulet, and Professor M. Spiro made the connection with
the results from earth-based neutrino experiments. Finally, much
attentiou was giveu to the latest re- sults from the TEVATRON
(Fermilab, USA), showing further evidence for the loug awaited top
quark. Professor A. Tollestrup gave a detailed presentation of
these results aud discussed their importance for the Standard
Model.
The 1994 Cargese Summer Institute on Frontiers in Partide Physics
was organized by the Universite Pierre et Marie Curie, Paris (M.
Levy), the Ecole Normale Superieure, Paris (J. Iliopoulos), the
Katholieke Universiteit Leuven (R. Gastmans), and the Uni- versite
Catholique de Louvain (J. -M. Gerard), which, since 1975, have
joined their efforts and worked in common. It was the eleventh
Summer Institute on High Energy Physics organized jointly at
Cargese by three of these universities. Severa! new frontiers in
partide physics were thoroughly discussed at this school. the new
euergy range in deep-iuelastic electron-proton scattering is beiug
In particular, explored by HERA (DESY, Hamburg), and Professor A.
De Roeck described the first results from the H1 and Zeus
experiments, while Professors A. H. Mueller aud Z. Kuuszt discussed
their relevance from the theoretical point of view. Also, the
satellite exper- iments offer new possibilities for exploring the
links between astrophysics, cosmology, and partide physics. A
critica] a. nalysis of these experiments was performed by Pro-
fessor B. Sadoulet, and Professor M. Spiro made the connection with
the results from earth-based neutrino experiments. Finally, much
attentiou was giveu to the latest re- sults from the TEVATRON
(Fermilab, USA), showing further evidence for the loug awaited top
quark. Professor A. Tollestrup gave a detailed presentation of
these results aud discussed their importance for the Standard
Model.
The 1990 Cargese Summer Institute on ZO-Physics was organized by
the Univer- site Pierre et Marie Curie, Paris (M. Levy and J.-L.
Basdevant), CERN (M. Jacob), the Universite Catholique de Louvain
(D. Speiser and J. Weyers), and the Katholieke Universiteit te
Leuven (R. Gastmans), which, since 1975, have joined their efforts
and worked in common. It was the ninth Summer Institute on High
Energy Physics orga- nized jointly at Cargese by these three
universities. Because of the start-up of LEP in the summer of 1989,
we broke with our tradition of having our Summer Institutes in the
odd years. Indeed, it seemed to us that the many new data from LEP
had to be presented in detail as soon as possible in order to
prepare the young researchers in particle physics better for the
experimental results with which they will be confronted in the
coming years. The main theme of the school was therefore
ZO-physics, with particular emphasis on the way the experiments at
LEP are analyzed. We had one lecturer from each LEP experiment:
they agreed among each other to present different topics in e+e-
physics. Nevertheless, they made sure that all the major topics
were discussed and that the results could be critically compared.
The 1996 Carg se Summer Institute on Frontiers in Particle Physics
was organized by the Universite Pierre et Marie Curie, Paris (M.
Levy), the Ecole Nonnale SupCrieure, Paris (J. lliopoulos), the
Katholieke Universiteit Leuven (R. Gastmans), and the Universite
Catholique de Louvain (J.-M. Gerard), which, since 1975, have
joined their efforts and worked in common. It was the twelfth
Sunnner Institute on High Energy Physics organized jointly at Carg
se by three of these universities. The Standard Model for
fundamental interactions is constructed on two essential
ingredients: the gauge symmetry and the mass generation mechanism.
Now that the gauge theory aspect has been finnly established, the
new challenge for the young researchers in elementary particle
physics is the understanding of the origin of the masses. The
standard Higgs mechanism is believed to be responsible for
generating the masses of ALL fundamental particles. Professor D.
Treille discussed the prospects for Higgs boson search and
described the experimental determinations of the gauge boson
masses. The influence of the top quark mass on electroweak
processes has been emphasized by Professor J.L. Rosner, while
Professor M. Neubert introduced the heavy-quark effective theory
which allows you to get rid of heavy-quark masses. The theoretical
determinations of the light quark masses have been critically
analyzed by Professor H. Leutwyler. Professor A. Pich presented the
various experimental tests on lepton universality and Professor
R.L. MBssbauer reviewed our present knowledge on the neutrino
masses."
The 1981 Cargese Summer Institute on Fundamental Interactions was
organized by the Universite Pierre et Marie Curie, Paris (M. LEVY
and J-L. BASDEVANT), CERN (M. JACOB), the Universite Catholique de
Louvain (D. SPEISER and J. WEYERS), and the Kotholieke Universiteit
te Leuven (R. GASTMANS), which, since 1975 have joined their
efforts and worked in common. It was the 24th Summer Institute held
at Cargese and the 8th one organized by the two institutes of
theoretical physics at Leuven and Louvain-Ia-Neuve. The 1985 school
was centered around two main themes : the standard model of the
fundamental interactions (and beyond) and astrophysics. The
remarkable advances in the theoretical understanding and
experimental confirmation of the standard model were reviewed in
several lectures where the reader will find a thorough analysis of
recent experiments as well as a detailed comparaison of the
standard model with experiment. On a more theoretical side,
supersymmetry, supergravity and strings were discussed as well. The
second theme concerns astrophysics where the school was quite
successful in bridging the gap between this fascinating subject and
more conventional particle physics. We owe many thanks to all those
who have made this Summer Institute possible ! Thanks are due to
the Scientific Committee of NATO and its President and to the
"Region Corse" for a generous grant. .. We wish to thank Miss M-F.
HANSELER, Mrs ALRIFRAI, Mr and Mrs ARIANO, and Mr BERNIA and all
others from Paris, Leuven, Louvain-la-Neuve and especially Cargese
for their collaboration.
The 1979 Cargese Summer Institute on Quarks and Leptons was
organized by the Universite Pierre et Marie Curie, Paris (M. LEVY
and J.-L. BASDEVANT), CERN (M. JACOB), the Universite Catholi~ue de
Louvain (D. SPEISER and J. WEYERS), and the Katholieke Universiteit
te Leuven (R. GASTMANS), who, like in 1975 and 1977, had joined
their efforts and worked in common. It was the 20th Summer
Institute held at Cargese and the 5th one organized by the two
institutes of theoretical physics at Leuven and Louvain-la- Neuve.
This time, the school was dominated by the impressive advances
which were made in the field of perturbative ~uantum chromodyna-
mics and its applications to high energy phenomena involving
strongly interacting particles. The unification of weak and
electromagnetic interactions being well established, a new picture
in particle physics emerges wherein a possible unification of weak,
electromagnetic, and strong forces is put forward. Its conse~uences
were also discussed in detail. Finally, to complete the picture of
the present status of high energy physics, experi- mentalists from
the major laboratories around the world reported on the latest
developments in electron-positron scattering, neutrino induced
reactions, and hadron collisions. We owe many thanks to all those
who have made this Summer Institute possible! Thanks are due to the
Scientific Committee of NATO and its President for a generous grant
and especially to the head of the Scientific Affairs Division, Dr.
M. DI LULLO for his constant help and encouragements.
The 1983 Cargese Summer Institute on Particles and Fields was
organized by the Universite Pierre et Marie Curie, Paris (M. LEVY
and J.-L. BASDEVANT), C.E.R.N. (M. JACOB), the Universite
Catholique de Louvain (D. SPEISER and J. WEYERS), and the
Katholieke Universiteit Leuven (R. GASTMANS). After 1975, 1977,
1979, and 1981, it was the fifth time they joined their efforts for
organizing this Summer Insti- tute. This school was characterized
by simultaneous progress in the theory of elementary particles and
by impressive experimental advances. On the theoretical front, one
witnessed the new developments in lattice gauge theories, which
explore the world of strongly interacting par- ticles in a
non-perturbative way, and progress in a better understan- ding of
the unity of all interactions based on supersymmetry. The
experimentalists were ~roud to announce the discovery of the
interme- diate vector bosons; W- and ZO, at C.E.R.N., while
physicists working with e+e- colliding beams continued to probe
more deeply the validity of the theoretical models of strong, weak
and electromagnetic inter- actions. We owe many thanks to all those
who have made this Summer Insti- tute possible! Thanks are due to
the Scientific Committee of NATO and its Presi- dent for a generous
grant and especially to the head of the Advanced Study Institute
Program and his collaborators for their constant help and
encouragement. We also thank the National Science Foundation (USA)
for their financial assistance.
The 1992 Cargese Summer Institute on Quantitative Particle Physics
was organized by the Universite Pierre et Marie Curie, Paris (M.
Levy and J. -L. Basdevant), CERN (M. Jacob), the Ecole Normale
Superieure, Paris (J. Diopoulos), the Katholieke Universiteit te
Leuven (R. Gastmans) and the Universite Catholique de Louvain (J-M.
Gerard), which, since 1975, have joined their efforts and worked in
common. It was the tenth Summer Institute on High Energy Physics
organized jointly at Cargese by these three universities. The 1992
School centered on quantitative tests of the Standard Model for
electroweak and strong interactions. First, Professor T. D. Lee
reviewed the fascinating history of weak interactions. Professor R.
Barbieri then discussed the implications of the of LEP presented by
Professor Foil. . Professor G. Ecker latest experimental results
described in detail the interplay between electroweak and strong
interactions at low energy. Professors K. Berkelman and J-M. Gerard
stressed the necessity to study the effects of CP-violation in both
B-and K-physics. The first results of the HERA machine were
presented by Professor G. Wolf, while Professor M. Shochet reviewed
heavy flavor physics in hadron collider experiments. Recent
non-accelerator experiments in neutrino physics were presented by
Professor B. Barish. Finally, Professor M. Turner reviewed
Cosmology after COBE. We owe many thanks to all those who have made
this Summer Institute possible! Special thanks are due to the
Scientific Committee of NATO and its President for a generous
grant.
For more than 25 years the Standard Model of particle physics has
withstood the confrontation with experimental results of increasing
precision, but this does not imply that the Standard Model can
answer all questions about the ultimate constituents of nature.
This book presents a critical examination of the latest
experimental results and confronts them with the predictions of the
Standard Model. Besides discussions of accelerator results from
LEP, HERA and the TEVATRON, attention is paid to the unresolved
problems of neutrino oscillations, CP violation, dark matter and
cosmology. New theoretical ideas are also analyzed in order to
explore possible extensions of the standard model. Realistic plans
for future accelerators are presented and their physics potential
is discussed, paving the way for the next generation of particle
physics experiments.
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