Università di Ferrara — Dipartimento di Fisica

FISICA DEGLI ACCELERATORI

Dr. Giulio Stancari

Corso di 3 crediti formativi per attività a libera scelta dello studente (tipo d) per i corsi di laurea specialistica. Il corso è aperto anche agli studenti del dottorato.


ANNUNCI

La prova scritta finale si terrà mercoledì 2 aprile dalle ore 9 alle ore 12 in aula G10 (palazzina ex-Eridania).

La lezione di recupero si svolgerà martedì 18 marzo dalle 9 alle 12 in aula 12 (Cattedrale).

Le lezioni si svolgono nel secondo trimestre, dal 10 gennaio al 13 marzo, tutti i giovedì, dalle 9 alle 12, presso l'aula G10 (palazzina ex-Eridania).

DISPENSE

Informazioni sul corso: [pdf]

Compiti a casa: 1 2 3 4 5 6 7 (esempio prova finale)

Altri documenti: cella FODO [pdf], diagnostica [pdf].

LIBRI DI TESTO

D. A. Edwards and M. J. Syphers, An Introduction to the Physics of High Energy Accelerators (Wiley, 1993)

A. Sessler and E. Wilson, Engines of Discovery: A Century of Particle Accelerators (World Scientific, 2007)

ALTRI TESTI CONSIGLIATI

A. P. Banford, The Transport of Charged Particle Beams (Spon, 1966)

M. Sands, The Physics of Electron Storage Rings: An Introduction, Stanford Report SLAC-121 (1970)

P. Germain, Introduction aux accélérateurs de particules CERN Report 89-07 [PDF]

E. J. N. Wilson, An Introduction to Particle Accelerators (Oxford, 2001)

ARTICOLI CLASSICI E RASSEGNE

R. Wideröe,
A New Principle for the Generation of High Voltages,
Archiv für Elektrotechnik 21, 387 (1928).

R. J. Van de Graaff,
A 1,500,000 Volt Electrostatic Generator,
Phys. Rev. 38, 1919 (1931).

J. D. Cockcroft and E. T. S. Walton, Artificial Production of Fast Protons, Nature 129, 242 (1932); Disintegration of Lithium by Swift Protons, Nature 129, 649 (1932).
Conferenze per il Premio Nobel 1951: Experiments on the Interaction of High-Speed Nucleons with Atomic Nuclei e The Artificial Production of Fast Particles.

E. O. Lawrence and M. S. Livingston,
The Production of High Speed Light Ions Without the Use of High Voltages,
Phys. Rev. 40, 19 (1932).
Conferenza per il Premio Nobel 1939 (1951): The Evolution of the Cyclotron.

L. H. Thomas,
The Path of Ions in the Cyclotron. I. Orbits in the Magnetic Field,
Phys. Rev. 54, 580 (1938).
The Path of Ions in the Cyclotron. II. Paths in the Combined Electric and Magnetic Fields,
Phys. Rev. 54, 588 (1938).

D. W. Kerst,
The Acceleration of Electrons by Magnetic Induction,
Phys. Rev. 60, 47 (1941).

D. W. Kerst and R. Serber,
Electronic Orbits in the Induction Accelerator,
Phys. Rev. 60, 53 (1941).

V. Veksler,
A New Method of Acceleration of Relativistic Particles,
Journal of Physics, U.S.S.R. 9, 153 (1945).

E. M. McMillan,
The Synchrotron — A Proposed High Energy Particle Accelerator,
Phys. Rev. 68, 143 (1945).

J. Schwinger,
On the Classical Radiation of Accelerated Electrons,
Phys. Rev. 75, 1912 (1949).

E. D. Courant, M. S. Livingston, and H. S. Snyder,
The Strong-Focusing Synchrotron — A New High Energy Accelerator,
Phys. Rev. 88, 1190 (1952);
E. D. Courant, M. S. Livingston, H. S. Snyder, and J. P. Blewett,
Origin of the "Strong-Focusing" Principle,
Phys. Rev. 91, 202 (1953);
E. D. Courant and H. S. Snyder,
Theory of the Alternating-Gradient Synchrotron,
Ann. Phys. 3, 1 (1958), ristampato in Ann. Phys. 281, 360 (2000).

M. Sands,
Synchrotron Oscillations Induced by Radiation Fluctuations,
Phys. Rev. 97, 470 (1955).

D. W. Kerst et al.,
Attainment of Very High Energy by Means of Intersecting Beams of Particles,
Phys. Rev. 102, 590 (1956).

K. R. Symon et al.,
Fixed-Field Alternating-Gradient Particle Accelerators,
Phys. Rev. 103, 1837 (1956).

K. W. Robinson,
Radiation Effects in Circular Electron Accelerators,
Phys. Rev. 111, 373 (1958).

C. Bernardini et al.,
Lifetime and Beam Size in a Storage Ring,
Phys. Rev. Lett. 10, 407 (1963).

E. D. Courant and A. M. Sessler,
Transverse Coherent Resistive Instabilities of Azimuthally Bunched Beams in Particle Accelerators,
Rev. Sci. Instrum. 37, 1579 (1966).

G. I. Budker,
An effective method of damping particle oscillations in proton and antiproton storage rings,
Atomic Energy 22, 438 (1966).

S. van der Meer,
Stochastic damping of betatron oscillations in the ISR,
CERN Report ISR-PO/72-31 (1972).
Conferenza per il Premio Nobel 1984: Stochastic Cooling and the Accumulation of Antiprotons.

D. Allan Bromley,
The Development of Electrostatic Accelerators,
Nucl. Instrum. Methods 122, 1 (1974).

RISORSE IN RETE

Scuole internazionali: USPAS, CAS, JUAS.

JACoW, Joint Accelerator Conferences Website. Gli atti dei più importanti congressi in rete.

interactions.org, risorse e notizie sulla fisica delle particelle.

CERN | FNAL

Accelerators and Nobel Laureates di S. Kullander, un articolo divulgativo sugli acceleratori dalla Fondazione Nobel.


Last modified: Thu Mar 27 11:25:10 CET 2008