2000 EUROPEAN SCHOOL OF HIGH-ENERGY PHYSICS

2000 EUROPEAN SCHOOL OF HIGH-ENERGY PHYSICS

(formerly CERN-JINR School of Physics)

20 August - 2 September 2000

Caramulo, Portugal

Scientific Programme

Cosmology and Astrophysics

Lecturer: Mikhail Shaposhnikov, Université de Lausanne, Switzerland

Outline

The isotropic and homogeneous Universe, the Robertson-Walker metric.

The Big-bang cosmology: recombination, nucleosynthesis and baryogenesis

The inflationary Universe and large scale structures.

Dark matter

Reading List

S. Weinberg, Gravitation and Cosmology, J. Wiley, 1972

Ya. Zeldovich and I. Novikov, Relativistic Astrophysics, Univ. of Chicago press, 1971-1983

E. Kolb and M. Turner, The Early Universe, Addison-Wesley, Reading, MA 1990

A. Linde, Particle Physics and Inflationary Cosmology, Chur, Switzerland: Harwood, 1990

Cosmology and Particle Physics. By J.A. Peacock (Edinburgh U.). 1998. Prepared for 1998 European School of High-Energy Physics, St. Andrews, Scotland, 23 Aug - 5 Sep 1998. In *St. Andrews 1998, High-energy physics* 197-299.

Astrophysics and Cosmology. By Juan Garcia-Bellido (Imperial Coll., London). Aug 1999. 78pp. Invited talk at 1999 European School of High-Energy Physics (ESHEP 99), Casta-Papernicka, Slovak Republic, 22 Aug - 4 Sep 1999. e-Print Archive: hep-ph/0004188

Heavy Ions

Lecturer: Jorge Dias de Deus, Instituto Superior Técnico, Lisboa, Portugal

Outline

'Heavy Ion Collisions' (The Search for the Quark Gluon Plasma)

The lecture course will be mostly focused on quark-gluon plasma searches. The main questions to be adressed are:

Why do we believe that the Quark Gluon Plasma (QGP) exists? The QCD predictions.

Did it occur a cosmological transition from QGP to normal hadrons? The Big Bang and the Little Bang.

Is there evidence for nuclear collective effects beyond superposition of nucleon-nucleon collisions? Models and data.

Are the conditions for equilibrium satisfied in heavy ion collisions? Thermal transition versus geometrical transition.

What are the good signals for the QCD? Order parameters and lots of explanations.

What is true and what is fantasy? The need for new experiments: RHIC and LHC are waiting for us (or vice-versa!).

Reading List

Introduction to High Energy Heavy-Ion Collisions, Chenk-Yin Wong, World Scientific (1994).

Progress in Particle and Nuclear Physics, vol.42, Heavy Ion Collisions from nuclear to quark matter, Edited by A. Faessler, Elsevier Science BV (1999).

Signatures of Quark-Gluon-Plasma Formation in High Energy Heavy Ion Collisions: a critical review, S.A. Bass, M. Gyulassy, H. Stöcker and W. Greiver, hep-ph/9810781, J. Phys. G, Nucl. Part. Phys.

Hunting down the Quark-Gluon Plasma in Relativistic Heavy-Ion Collisions, U. Heinz, hep-ph/9902424, Proceedings "Strong and Electroweak Matter ’98", World Scientific (1999).

Neutrinos

Lecturer: Alvaro De Rújula, Theory Division, CERN, Geneva, Switzerland

Outline

Basic properties of neutrinos, and how we know them.

Experimental limits and vague theoretical ideas on neutrino masses.

Atmospheric, solar, reactor and accelerator experiments on neutrino oscillations.

The near and medium-term future.

Reading List

Basic:

Any book on field theory, specifically Dirac, Weyl and Majorana neutrinos (e.g. Pierre Ramond, "Field Theory, a Modern Primer" Addison Wesley).

Specific:

Any decent recent discussion of current topics in neutrino physics (e.g.

L. Wolfestein, Rev. Mod. Phys 71 (1999) S140,

W. C. Haxton and B.R. Holstein, hep-ph/9905257,

E. Kh. Akhmedov, hep-ph/0001264,

R.D. Peccei, hep-ph/9906509,

W. C. Haxton, nucl-th/0004052,

H. J. Lipkin, Phys. Lett B477 (2000) 195).

Flavor Physics

Lecturer: Gustavo Castelo Branco, Instituto Superior Técnico, Lisboa, Portugal

Outline

The flavour structure of the standard model (SM). Natural conservation of flavour in the neutral currents of the SM. Charged currents and the Cabibbo-Kobayashi-Maskawa (CKM) matrix. Counting of the physical parameters. The KM mechanism of CP violation. Rephasing invariant quantities. Unitary triangles and their physical meaning. Spontaneous CP violation (SCPV). Minimal expansions of the SM with SCPV. New sources of CP violation and physics beyond the SM.

Attempts at understanding the patterns of quark masses and mixings. Horizontal symmetries and texture.

CP violation in the kaon sector. CP violation in the B sector. CP asymmetries and the measurement of the angles of the unitary triangle. Tests of the SM and search for physics beyond the SM.=20

Reading List

"CP Violation", G.C. Branco, L. Lavoura and J.P.Silva - Oxford press (1999)

"Heavy flavours", A. Buras and R. Fleischer, Singapore (1998)

"Tke BaBar Physics Book", Ed.: P. Harrison and Helen Queen.

Field Theory and the Standard Model

Lecturer: Ronald Kleiss, University of Nijmegen, The Netherlands

Outline

A short introduction to perturbative field theory based on the use of Feynman diagrams, and a sketch of the Minimal Standard Model. In brief:

The concept of path integrals

Field theory in 0+0 dimension:

+ Feynman diagrams

+ Schwinger-Dyson equations

+ renormalization

Field theory in higher dimensions:

+ off-shell porpagators

+ the Optical theorem

+ Feynman rules

Unitarity and its consequences

+ Current conservation etc

+ Muon decay and the W

+ fermion scattering and the Z

+ boson scattering and the Higgs

Reading List

"The treatment is somewhat non-standard and hence there is not much literature that is directly applicable. However, any good modern textbook on field theory (Weinberg, Lane&Peskin, Quigg...) will certainly be helpful."

Beyond the Standard Model

Lecturer: Dmitri Kazakov, Joint Institute for Nuclear Research, Dubna, Russia

Outline

'Supersymmetry in Particle Physics'

Lecture I

What is supersymmetry?

Motivation in particle physics:

i) unification with gravity

ii) unification of the gauge couplings

iii) solution of the hierarchy problem

iv) beyond GUTs: superstring

Lecture II

Basics of supersymmetry.

Construction of SUSY Lagrangians.

General properties of SUSY models.

Lecture III

SUSY generalization of the Standard Model.

Minimal Supersymmetric Standard Model (MSSM):

i) the field content

ii) Lagrangian

iii) properties of interactions

iv) creation and decay of superpartners

Lecture IV

Breaking of SUSY. Hidden sector.

The soft terms and the mass formulas.

Renormalization group analysis.

Lecture V

Parameter space of the MSSM.

Constrained MSSM.

The fixed point scenario.

Mass spectrum of superpartners.

Lecture VI

The Higgs boson in the SM and MSSM.

Allowed mass range of the SM.

The Higgs potential in the MSSM.

EWSB.

Mass predictions.

Perspectives of observation.

Reading List

P. Fayet and S. Ferrara, Phys. Rep. 32(1977) 249.

M. F. Sohnius, Phys. Rep. 128 (1985) 41.

H. P. Nilles, Phys. Rep. 110 (1984) 1.

H. E. Haber and G. L. Kane, Phys. Rep. 117 (1985) 75.

A.B. Lahanas and D. V. Nanopoulos, Phys. Rep. 145 (1987) 1.

H. E. Haber, Introductory Low-Energy Supersymmetry, Lectures given at TASI 1992, (SCIPP 92/33, 1993), hep-ph/9306207.

W. de Boer, Grand Unified Theories and Supersymmetry in Particle Physics and Cosmology, Progr. in Nucl. and Particle Phys., 33 (1994) 201, hep-ph/9402266

D. I. Kazakov, Mimimal Supersymmetric Extension of the Standard Model}, Surveys in High Energy Physics, 10 (1997) 153, wwwtheor.itep.ru/school96/ .

D. I. Kazakov, Supersymmetry in Particle Physics: Renormalization Group Viewpoint, Review talk at the Conf. RG-2000, hep-ph/0001257.

QCD — Quantum ChromoDynamics

Lecturer: Vladimir Braun, Universitat Regensburg, Germany

Outline

Infra-red Safety

Space-time picture of the gluon Bremstrahlung

Factorization and OPE

Resummations

Confinement and chiral symmetry breaking

Nonperturbative effects in hard processes

Reading List

Yu. Dokshitzer et al., Basics of Perturbative QCD, Editions Frontieres, 1991

G. Sterman, Partons, Factorization and Resummation, TASI Lectures, 1995 e-Print Archive: hep-ph/9606312