Università Roma Tre

Provide the student with the fondamentals of moderns techniques for biomedical imaging

THE COURSE AIMS AT PROVIDING THE BASIC KNOWLEDGE ON THE ARCHITECTURAL DESIGN AND TECHNICAL ISSUES OF A HIGH ENERGY PHYSICS EXPERIMENT FROM THE POINT OF VIEW OF THE REQUIREMENTS OF DATA ACQUISITION, MONITORING AND CONTROL.

To become acquainted with the fundamental aspects of properties, preparation and characterization of solid surfaces and interfaces.

DEEP UNDERSTANDING OF THE PHYSICAL PROPERTIES OF LOW DIMENSIONAL SYSTEMS,. ILLUSTRATE THE PRINCIPLES ADOPTED IN THE NANOTECHNOLOGY FOR THE REALIZATION AND FABRICATION OF SYSTEMS HAVING NANOMETRIC SIZES.

the course aims at providing the students of notions on earth representation starting from satellite images (remote sensing) and use of them in GIS

TO PROVIDE FUNDAMENTALS OF QUANTUM FIELD THEORY, TO EXPLAIN THE STANDARD MODEL OF PARTICLE PHYSICS AND, IN PARTICULAR, THE MOST INTERESTING TOPICS WITHIN PARTICLE FUNDAMENTAL INTERACTIONS

TO GIVE A PERSPECTIVE OF THE MODERN DEVELOPMENT OF STATISTICAL MECHANICS.
STARTING FROM THE THEORY OF THE PHASE TRANSITIONS AND CRITICAL PHENOMENA, IT IS SHOWN ARE THE CONCEPTS AND METHODS OF THE RENORMALIZATION GROUP HAVE BEEN INTRODUCED. THE RENORMALIZATION GROUP APPROACH IS NOWDAYS LARGELY USED IN SEVERAL FIELDS OF STATISTICAL MECHANICS. THE CRITICAL PHENOMENA IS THE CLASSICAL APPLICATION OF THE METHOD. THE FIRST 6 CFU ARE SUITABLE FOR VARIOUS CURRICULA.

TO INTRODUCE THE COMMON CONCEPTUAL BASIS OF FLUIDS DYNAMICS AND PLASMA PHYSICS AS DERIVED FROM A STATISTICAL DESCRIPTION OF MATTER. TO DERIVE AND DISCUSS THE EQUATIONS TO BE USED TO DESCRIBE THE DYNAMIC EVOLUTION OF FLUIDS AND PLASMAS. TO DESCRIBE EQUILIBRIUM AND STABILITY PROPERTIES OF THESE SYSTEMS AND DISCUSS EXEMPLA OF MAINLY ASTROPHYSICAL RELEVANCE. TO STUDY WAVE PHYSICS AND TURBULENCE IN PLASMA AND FLUIDS.

Provide the student with the basic notion of Healt Physics and with stage in hospital

THE AIM OF THIS COURSE IS TO APPLY THE PRINCIPLES OF OHYSICSTO THE STUDY OF THE EARTH, THIS COURSE PROVIDES A GENERAL INTRODUCTION TO THE MAIN GEOPHYSICAL METHODS IN WIDESREAD USE.

THE AIM OF THIS COURSE IS TO GIVE AN INTRODUCTION TO THE MODERN PHYSICS OF FLUIDS. IT CONSISTS IN THE STUDY OF FLUID PHENOMENOLOGY AT THE MICROSCOPIC LEVEL. IN PARTICULAR THE COURSE WILL FOCUS ON STATISTICAL MECHANICS AND COMPUTER SIMULATION METHODS TO BE ABLE TO DESCRIBE THE EXPERIMENTAL PHENOMENOLOGY STARTING FROM LAWS OF INTERATOMIC FORCES. IN THE COURSE IT WILL BE ADDRESSED PROBLEMS CONCERNING THE DYNAMICS OF FLUIDS STUDIED IN TERMS OF THE CORRELATION FUNCTIONS AND THE DYNAMIC RESPONSE FUNCTIONS.

TO INTRODUCE THE COMMON CONCEPTUAL BASIS OF FLUIDS DYNAMICS AND PLASMA PHYSICS AS DERIVED FROM A STATISTICAL DESCRIPTION OF MATTER. TO DERIVE AND DISCUSS THE EQUATIONS TO BE USED TO DESCRIBE THE DYNAMIC EVOLUTION OF FLUIDS AND PLASMAS. TO DESCRIBE EQUILIBRIUM AND STABILITY PROPERTIES OF THESE SYSTEMS AND DISCUSS EXEMPLA OF MAINLY ASTROPHYSICAL RELEVANCE. TO STUDY WAVE PHYSICS AND TURBULENCE IN PLASMA AND FLUIDS.

To grow in the student a critical awareness and a sensitivity for
non-linear systems with special regards to those which show a
deterministic chaotic behavior and regular motion due to their
integrability.

A SURVEY OF THE MAIN PHENOMENA IN THE FIELD OF HIGH ENERGY ASTROPHYSICS, WITH PARTICULAR EMPHASIS ON ACCRETION ONTO COMPACT OBJECTS (WHITE DWARFS, NEUTRON STARS AND BLACK HOLES) AND ON PARTICLE ACCELERATION

THE COURSE IS DESIGNED TO ILLUSTRATE THE OPERATION OF MAJOR SEMICONDUCTOR DEVICES BASED ON HOMO AND HETEROJUNCTIONS; THEIR CONNECTION TO THE OUTSIDE WORLD, THE FORMATION OF OHMIC AND SCHOTTKY CONTACTS USED IN MICRO AND NANOELECTRONICS. THE STUDENT WILL STUDY THE CHARACTERISTICS AT LOW AND HIGH FREQUENCY OF MESFET, MOSFET, BJT, HBT, AND THOSE MOST ADVANCED STRUCTURES USING QUANTUM CONFINEMENT OF CHARGE CARRIERS AS HEMT, PHEMT AND MODFET BASED ON GAAS / ALGAAS E GAN / ALGAN. .

A course introducing the physical principles that underlie phenomena in cell biology as well as properties of biological macromolecules as “soft” materials. The basic concepts behind the most common theoretical approaches and experimental techniques will be presented and discussed. The rationale is to provide the resources to understand what could be the role of physical principles in the world of biology.
The goal of this course is to make the students able to read and understand the actual cross-disciplinary literature to identify new research projects and open issues.

The course is devoted to a review of the interdisciplinar research activity in elementary particle physics and astrophysics. The main topics concerning both fields of elementary particle physics and astrophysics will be discussed in the framework of a phenomenological description and taking into account the main detectors actually on data taking or planned in the near future.

The course is devoted to a review of the interdisciplinar research activity in elementary particle physics and astrophysics. The main topics concerning both fields of elementary particle physics and astrophysics will be discussed in the framework of a phenomenological description and taking into account the main detectors actually on data taking or planned in the near future.

Provide students with the knowledge base and expertise needed to tackle the study of the characteristics of the geomagnetic field and its variations associated with internal and external sources. In particular, will be detailed physical processes involved in the interaction interplanetary plasma-magnetosphere, and the appropriate knowledge acquisition and analysis of data recorded by instruments on the ground as well as on board satellites and probes for the interplanetary medium.

HOW TO ANALIZE ASTROPHYSICAL DATA WITH A CRITICAL ATTITUDE

THE COURSE PROVIDES THE FUNDAMENTAL THEORETICAL AND EXPERIMENTAL KNOWLEDGE FOR IONIZING RADIATION PHYSICS AND RADIOMETRIC APPLICATIONS IN EARTH AND ENVIRONMENTAL PHYSICS.

Provide the student with the fondamentals of moderns techniques for biomedical imaging

THE COURSE AIMS AT PROVIDING THE BASIC KNOWLEDGE ON THE ARCHITECTURAL DESIGN AND TECHNICAL ISSUES OF A HIGH ENERGY PHYSICS EXPERIMENT FROM THE POINT OF VIEW OF THE REQUIREMENTS OF DATA ACQUISITION, MONITORING AND CONTROL.

To become acquainted with the fundamental aspects of properties, preparation and characterization of solid surfaces and interfaces.

DEEP UNDERSTANDING OF THE PHYSICAL PROPERTIES OF LOW DIMENSIONAL SYSTEMS,. ILLUSTRATE THE PRINCIPLES ADOPTED IN THE NANOTECHNOLOGY FOR THE REALIZATION AND FABRICATION OF SYSTEMS HAVING NANOMETRIC SIZES.

the course aims at providing the students of notions on earth representation starting from satellite images (remote sensing) and use of them in GIS

TO GIVE A PERSPECTIVE OF THE MODERN DEVELOPMENT OF STATISTICAL MECHANICS.
STARTING FROM THE THEORY OF THE PHASE TRANSITIONS AND CRITICAL PHENOMENA, IT IS SHOWN ARE THE CONCEPTS AND METHODS OF THE RENORMALIZATION GROUP HAVE BEEN INTRODUCED. THE RENORMALIZATION GROUP APPROACH IS NOWDAYS LARGELY USED IN SEVERAL FIELDS OF STATISTICAL MECHANICS. THE CRITICAL PHENOMENA IS THE CLASSICAL APPLICATION OF THE METHOD. THE FIRST 6 CFU ARE SUITABLE FOR VARIOUS CURRICULA.

TO INTRODUCE THE COMMON CONCEPTUAL BASIS OF FLUIDS DYNAMICS AND PLASMA PHYSICS AS DERIVED FROM A STATISTICAL DESCRIPTION OF MATTER. TO DERIVE AND DISCUSS THE EQUATIONS TO BE USED TO DESCRIBE THE DYNAMIC EVOLUTION OF FLUIDS AND PLASMAS. TO DESCRIBE EQUILIBRIUM AND STABILITY PROPERTIES OF THESE SYSTEMS AND DISCUSS EXEMPLA OF MAINLY ASTROPHYSICAL RELEVANCE. TO STUDY WAVE PHYSICS AND TURBULENCE IN PLASMA AND FLUIDS.

Provide the student with the basic notion of Healt Physics and with stage in hospital

THE AIM OF THIS COURSE IS TO APPLY THE PRINCIPLES OF OHYSICSTO THE STUDY OF THE EARTH, THIS COURSE PROVIDES A GENERAL INTRODUCTION TO THE MAIN GEOPHYSICAL METHODS IN WIDESREAD USE.

TO PROVIDE THE BASIC KNOWLEDGE OF THEORETHICAL PHYSICS WITH RESPECT TO SPECIAL RELATIVITY, RELATIVISTIC QUANTUM MECHANICS, FIELD THEORY AND QED.

THE AIM OF THIS COURSE IS TO GIVE AN INTRODUCTION TO THE MODERN PHYSICS OF FLUIDS. IT CONSISTS IN THE STUDY OF FLUID PHENOMENOLOGY AT THE MICROSCOPIC LEVEL. IN PARTICULAR THE COURSE WILL FOCUS ON STATISTICAL MECHANICS AND COMPUTER SIMULATION METHODS TO BE ABLE TO DESCRIBE THE EXPERIMENTAL PHENOMENOLOGY STARTING FROM LAWS OF INTERATOMIC FORCES. IN THE COURSE IT WILL BE ADDRESSED PROBLEMS CONCERNING THE DYNAMICS OF FLUIDS STUDIED IN TERMS OF THE CORRELATION FUNCTIONS AND THE DYNAMIC RESPONSE FUNCTIONS.

TO INTRODUCE THE COMMON CONCEPTUAL BASIS OF FLUIDS DYNAMICS AND PLASMA PHYSICS AS DERIVED FROM A STATISTICAL DESCRIPTION OF MATTER. TO DERIVE AND DISCUSS THE EQUATIONS TO BE USED TO DESCRIBE THE DYNAMIC EVOLUTION OF FLUIDS AND PLASMAS. TO DESCRIBE EQUILIBRIUM AND STABILITY PROPERTIES OF THESE SYSTEMS AND DISCUSS EXEMPLA OF MAINLY ASTROPHYSICAL RELEVANCE. TO STUDY WAVE PHYSICS AND TURBULENCE IN PLASMA AND FLUIDS.

To grow in the student a critical awareness and a sensitivity for
non-linear systems with special regards to those which show a
deterministic chaotic behavior and regular motion due to their
integrability.

A SURVEY OF THE MAIN PHENOMENA IN THE FIELD OF HIGH ENERGY ASTROPHYSICS, WITH PARTICULAR EMPHASIS ON ACCRETION ONTO COMPACT OBJECTS (WHITE DWARFS, NEUTRON STARS AND BLACK HOLES) AND ON PARTICLE ACCELERATION

THE COURSE IS DESIGNED TO ILLUSTRATE THE OPERATION OF MAJOR SEMICONDUCTOR DEVICES BASED ON HOMO AND HETEROJUNCTIONS; THEIR CONNECTION TO THE OUTSIDE WORLD, THE FORMATION OF OHMIC AND SCHOTTKY CONTACTS USED IN MICRO AND NANOELECTRONICS. THE STUDENT WILL STUDY THE CHARACTERISTICS AT LOW AND HIGH FREQUENCY OF MESFET, MOSFET, BJT, HBT, AND THOSE MOST ADVANCED STRUCTURES USING QUANTUM CONFINEMENT OF CHARGE CARRIERS AS HEMT, PHEMT AND MODFET BASED ON GAAS / ALGAAS E GAN / ALGAN. .

A course introducing the physical principles that underlie phenomena in cell biology as well as properties of biological macromolecules as “soft” materials. The basic concepts behind the most common theoretical approaches and experimental techniques will be presented and discussed. The rationale is to provide the resources to understand what could be the role of physical principles in the world of biology.
The goal of this course is to make the students able to read and understand the actual cross-disciplinary literature to identify new research projects and open issues.

The course is devoted to a review of the interdisciplinar research activity in elementary particle physics and astrophysics. The main topics concerning both fields of elementary particle physics and astrophysics will be discussed in the framework of a phenomenological description and taking into account the main detectors actually on data taking or planned in the near future.

The course is devoted to a review of the interdisciplinar research activity in elementary particle physics and astrophysics. The main topics concerning both fields of elementary particle physics and astrophysics will be discussed in the framework of a phenomenological description and taking into account the main detectors actually on data taking or planned in the near future.

HOW TO ANALIZE ASTROPHYSICAL DATA WITH A CRITICAL ATTITUDE

THE COURSE PROVIDES THE FUNDAMENTAL THEORETICAL AND EXPERIMENTAL KNOWLEDGE FOR IONIZING RADIATION PHYSICS AND RADIOMETRIC APPLICATIONS IN EARTH AND ENVIRONMENTAL PHYSICS.

Acquire knowledge of nuclear physics and particle fundamental interactions.

BASIC KNOWLEDGE OF THE STRUCTURE, THE ELECTRONIC PROPERTIES AND THE PHYSICAL BEHAVIOR OF THE CONDENSED MATTER.

PROVIDING A GOOD ACQUAINTANCE OF THE SOLUTION METHODS AND TECHNIQUES FOR LINEAR INTEGRAL EQUATIONS, AS WELL AS FOR LINEAR ODES AND PDES.

Provide students with the knowledge base and expertise needed to tackle the study of the characteristics of the geomagnetic field and its variations associated with internal and external sources. In particular, will be detailed physical processes involved in the interaction interplanetary plasma-magnetosphere, and the appropriate knowledge acquisition and analysis of data recorded by instruments on the ground as well as on board satellites and probes for the interplanetary medium.