|
20401000 -
PHYSICAL INSTRUMENTS IN BIOLOGY AND MEDICINE
(objectives)
Provide students with the foundations of the modern techniques of imaging supplemented by some lab exercises that allow them to
deepen later the topics covered and fit into this subject field of advanced research as well as basic clinical applications
|
6
|
FIS/04
|
48
|
-
|
-
|
-
|
Elective activities
|
ITA |
|
20401070 -
DATA ACQUISITION AND CONTROL OF EXPERIMENTS
(objectives)
To provide the student with the basic knowledge of the construction of a nuclear physics experiment as a function of data collection from
detector, control equipment and experiment, monitoring the proper functioning of the apparatus and the quality of the acquired data
|
6
|
FIS/04
|
48
|
-
|
-
|
-
|
Elective activities
|
ITA |
|
20401858 -
INTRODUCTION TO MEDICAL PHYSICS
(objectives)
Introduce students to the study of the effects of ionizing and non-ionizing radiations on living matter. Lay the foundations of the principles of radiation protection and
the therapeutic use of ionizing and non-ionizing
|
6
|
FIS/07
|
48
|
-
|
-
|
-
|
Elective activities
|
ITA |
|
20402146 -
HIGH ENERGY ASTROPHYSICS
(objectives)
Provide students with an overview of the key phenomena in the field of High Energy Astrophysics, with particular attention to the phenomena of growth
of compact objects (white dwarfs, neutron stars and blacks holes) and the phenomena of particle acceleration
|
6
|
FIS/05
|
48
|
-
|
-
|
-
|
Elective activities
|
ITA |
|
20402151 -
ASTROPARTICLE PHYSICS - MODULE A
(objectives)
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.
|
3
|
FIS/04
|
24
|
-
|
-
|
-
|
Elective activities
|
ITA |
|
20402152 -
ASTROPARTICLE PHYSICS - MODULE B
(objectives)
The course aims to introduce students to research on issues in common between Particle Physics and Astrophysics. The different research topics
are being studied by the international scientific community we will be discussed within a unitary scheme, with particular attention
phenomenological interpretation and proposals for the creation of new experimental setups
|
3
|
FIS/04
|
24
|
-
|
-
|
-
|
Elective activities
|
ITA |
|
20402155 -
MEASUREMENTS IN ASTROPHYSICS
(objectives)
Enable students to analyze independently and critically different types of astrophysical data
|
6
|
FIS/05
|
48
|
-
|
-
|
-
|
Elective activities
|
ITA |
|
20402259 -
PHYSICS OF CLIMATE
(objectives)
first part
Dr. Luca Fiorani
Definition of climate (climatology and meteorology). The climate system (atmosphere, biosphere, cryosphere, geosphere, hydrosphere, Sun).
The solar radiation and the energy balance of the Earth (solar physics calls, laws of radiation, absorption of solar radiation in the atmosphere).
Atmosphere and Climate (recalls of composition, structure and circulation of the atmosphere).
Clouds and aerosols (calls processes of condensation and cloud formation).
Ocean and climate (recalls composition, structure and ocean circulation).
Radiative transfer (calls of absorption, emission and radiative transfer of the atmosphere).
The greenhouse effect (the atmosphere as greenhouse gas emissions, the calculation of the energy balance, greenhouse models).
The ozone layer (ultraviolet radiation in the atmosphere, photochemical production of ozone, ozone measurements, "hole" ozone).
Climate observation with remote sensing (measurements from land, satellite measurements, infrared instruments, tools "limb viewing", applications of remote sensing to studies climate).
Climate sensitivity and climate change (changes astronomical, solar, atmospheric, oceanic and temperature fluctuations).
Atmosphere of other planets.
Climate and society.
Multidecadal variability of sea surface temperature (seminar Dr. Salvatore Marullo).
Lidar measurement of greenhouse gases (visit to the ENEA Frascati Research Center).
second part
Dr. Antonello Pasini
Introduction to climate models. The conceptual path from observations to simulations. Dynamic and statistical approaches. Hierarchy of climate models and their components, types of models, the concept of parameter.
Models Power Budget (EBM). General structure of an EBM, EBM 0-dimensional, one-dimensional EBM, parameter in EBM, applications.
Radiative-convective models (RC) and models Intermediate Complexity (EMIC). Radiative-convective and radiative balance in climate models and implementation at intermediate complexity.
Global Climate Models (GCMs). Structure of a GCM, components and interactions, fundamental equations and their modeling. Activities and results of attribution. Validation of climate models.
Elements of regional climate modeling and downscaling techniques.
Scenarios and climate projections for the XXI century.
Analyze the climate and its changes from another point of view: neural network models and analysis of Granger causality. Details on techniques and results of attribution. Downscaling with neural network models.
|
6
|
FIS/06
|
48
|
-
|
-
|
-
|
Elective activities
|
ITA |
|
20402026 -
PHYSICS OF THE IONOSPHERE AND PHYSICS OF THE MAGNETOSPHERE
(objectives)
Give fundamental knowledge on the physics of the ionospheric plasma and its instability through a description of the structure, composition and formation
ionosphere, as well as the main dynamics present in this transition zone. One goal is to give students the tools to enable
an analysis on the effects of solar ultraviolet radiation and precipitation of magnetospheric particles in the broader framework of the study
interactions Lithosphere-Atmosphere-Ionosphere-Magnetosphere. Give fundamental knowledge on the physics of magnetospheric processes, perturbation and, through the
study of the interactions earth-sun, of the particles trapped in the Van Allen belts and interactions of the latter with the residual atmosphere
|
6
|
FIS/06
|
48
|
-
|
-
|
-
|
Elective activities
|
ITA |
|
20402359 -
Numerical models for environmental physics
(objectives)
Study and implement the most advanced techniques of numerical approximation, in particular relating to optimization problems and the approximate solution
of Ordinary Differential Equations
|
6
|
MAT/08
|
60
|
-
|
-
|
-
|
Elective activities
|
ITA |
|
20402380 -
ENVIRONMENTAL RADIOACTIVITY
(objectives)
The course is designed to provide basic knowledge, both theoretical and experimental, in the field of Physics Ionizing Radiation and radiometric methods
in Physics of the Earth and the Environment
|
6
|
FIS/07
|
48
|
-
|
-
|
-
|
Elective activities
|
ITA |
|
20401253 -
Physics of Liquids
(objectives)
Physics of Liquids:
The course offers an introduction to modern physics of liquids, understood as the study of the phenomenology of the fluids from the laws of force
interatomic. We will be studied theoretical methods based on integral equations that allow to describe the structure of the liquid. Will introduce methods
numerical simulation on computer applied to the physics of liquids. Then we will study the correlation functions and the theory of linear response with
application to the study of the dynamics of fluids in the hydrodynamic limit and in the visco-elastic. Memory functions will be introduced. They will be treated the
physics of supercooled liquids and the study of the glass transition
|
6
|
FIS/03
|
48
|
-
|
-
|
-
|
Elective activities
|
ITA |
|
20410050 -
FISICA DELLE NANOSTRUTTURE
(objectives)
Give the student a thorough understanding of the physical properties of low dimensional systems with nanometer feature sizes.
Illustrate the principles and methods of realization of nanotechnology
|
6
|
FIS/03
|
48
|
-
|
-
|
-
|
Elective activities
|
ITA |
|
20410051 -
FISICA DELLE SUPERFICI E INTERFACCE
(objectives)
Introduce students to basic knowledge of properties, preparation and characterization of surfaces and interfaces
|
6
|
FIS/03
|
48
|
-
|
-
|
-
|
Elective activities
|
ITA |
|
20410049 -
FISICA DEI DISPOSITIVI ELETTRONICI ED OPTOELETTRONICI
(objectives)
The course aims to illustrate the most advanced methodologies for the study, simulation and analysis of electronic and optoelectronic devices solid state.
Will discuss the physical mechanisms underlying the operation of the most modern devices based on wide-gap semiconductors, such as GaN, GaAs and AlGaAs, so
as the more traditional ones manufactured in silicon. In addition, through appropriate scaling laws, the analyzed glimpsed limits for current technologies with
the indication of the possible solutions
|
6
|
FIS/03
|
48
|
-
|
-
|
-
|
Elective activities
|
ITA |
|
20402354 -
STATISTICAL MECHANICS
(objectives)
This course aims to provide a perspective on the modern developments of Statistical Mechanics. In particular, by starting from the theory of phase transitions and critical phenomena, it is shown how the concepts lying at the basis of the Renormalization Group method emerged. This method is nowadays largely used in several different fields of Statistical Mechanics. Its application to critical phenomena is the classical and paradigmatic example and, as such, is illustrated in detail in the course.
|
6
|
FIS/02
|
48
|
-
|
-
|
-
|
Elective activities
|
ITA |
|
20410097 -
FOTONICA QUANTISTICA
(objectives)
The aim of the course is to familiarise with the basic concepts of laser physics, as well with the second-quantisation description of the electromagnetic field. A phenomenological approach will be followed throughout the lectures.
|
6
|
FIS/03
|
48
|
-
|
-
|
-
|
Elective activities
|
ITA |
|
20410098 -
FISICA DEI PIANETI DEL SISTEMA SOLARE ED ESOPIANETI
(objectives)
The aim of the course is to provide adequate knowledge about the physics of the solar system planets and exoplanets, regarding in particular atmospheric, surface and sub-superficial surveying techniques.
|
6
|
FIS/05
|
48
|
-
|
-
|
-
|
Elective activities
|
ITA |
|
20410096 -
Educational & Outreach - La comunicazione della scienza
(objectives)
Provide students with the basic concepts of communication, such as techniques for public speaking and for the preparation of presentation materials and scientific communication texts. To gain expertise on the design and implementation of communication products (images, audio, video) and the Communication Plan (to organize the communication of an event or science project) .
|
6
|
FIS/08
|
40
|
12
|
-
|
-
|
Elective activities
|
ITA |
Università Roma Tre
