Courses

Courses a.y. 2019-2020

 

 

Course: :  
Teacher:

 

Courses by Type
(click on type to see its courses)

BASIC    N : 29

Course nameNotePeriodTime
Table
Semester I
 
  • Lucia CAPORASO ( caporaso@mat.uniroma3.it - Dipartimento di Matematica e Fisica )  

Semester I
 
  • Giulio CODOGNI ( codogni@mat.uniroma3.it - Dipartimento di Matematica e Fisica )  

Semester I
 
  • Marco PEDICINI ( marco.pedicini@uniroma3.it - Dipartimento di Matematica e Fisica )  
Semester I
 
  • Francesca MEROLA ( merola@mat.uniroma3.it - Dipartimento di Matematica e Fisica )  

Semester I
 
  • Renato SPIGLER ( spigler@mat.uniroma3.it - Dipartimento di Matematica e Fisica )  

Semester I
 
  • Luigi CHIERCHIA ( luigi@mat.uniroma3.it - Dipartimento di Matematica e Fisica )  

Semester I
 
  • Alberto PAOLUZZI ( paoluzzi@dia.uniroma3.it - Dipartimento di Matematica e Fisica )  

Semester I
 
  • Pietro CAPUTO ( caputo@mat.uniroma3.it - Dipartimento di Matematica e Fisica )  

Semester I
 

Semester I
 
  • Vittorio LUBICZ ( lubicz@fis.uniroma3.it - Dipartimento di Matematica e Fisica )  
Semester II -
 
  • Emanuele HAUS ( ehaus@mat.uniroma3.it - Dipartimento di Matematica e Fisica )  

Semester II
 

Semester II
 
  • Marco PEDICINI ( marco.pedicini@uniroma3.it - Dipartimento di Matematica e Fisica )  
Semester II
 
  • Roberto FERRETTI ( ferretti@mat.uniroma3.it - Dipartimento di Matematica e Fisica )  

Semester II
 
  • TO BE DEFINED -  
Semester II
 
Semester II
 
  • Francesco Cesarone ( francesco.cesarone@uniroma3.it - Universita degli Studi Roma TRE )  
Semester II
 
Semester II
 
Semester II
 
  • Livia CORSI ( lcorsi@mat.uniroma3.it - Dipartimento di Matematica e Fisica )  

Semester II
 

Semester II
 

Semester II
 
  • SIMONE CACACE ( cacace@mat.uniroma3.it - Dipartimento di Matematica e Fisica )  

Semester II
 

Semester II
 
  • Pierpaolo ESPOSITO ( esposito@mat.uniroma3.it - Dipartimento di Matematica e Fisica )  

Semester II
 
  • Fabio MARTINELLI ( martin@mat.uniroma3.it - Dipartimento di Matematica e Fisica )  
Semester II
 
Semester II
 

Semester II
 
  • Giorgio ARCADI ( giorgio.arcadi@uniroma3.it - Dipartimento di Matematica e Fisica )  

INTERMEDIATE    N : 8

Course nameNotePeriodTime
Table

Semester I
 

Semester I
 
  • Luciano TERESI ( luciano.teresi@uniroma3.it - Dipartimento di Matematica e Fisica )  
Semester II
 

Semester II
 
  • Fabrizio BARROERO ( barroero@mat.uniroma3.it - Dipartimento di Matematica e Fisica )  

Semester II
 
  • Alberto PAOLUZZI ( paoluzzi@dia.uniroma3.it - Dipartimento di Matematica e Fisica )  

Semester II
 
  • Filippo VIVIANI - villani.antonio@gmail.com  

Semester II
 

Semester II
 
  • Marco LIVERANI ( liverani@mat.uniroma3.it - Universita degli Studi Roma TRE )  

SPECIAL    N : 5

Course nameNotePeriodTime
Table
MULTI-SCALE ANALYSIS OF REACTION-DIFFUSION PARTICLE SYSTEMS

Multi-scale analysis of reaction-diffusion particle systems

Abstract:
This course focus on the (microscopic) analysis of stochastic processes on particle systems. A few examples include spread of infection among moving particles, the frog model or stochastic combustion model, activated random walks, growth processes with competition, and branching random walk with interactions. A common feature of such models is that correlations do not decay exponentially fast, which brings serious challenges to the application of standard techniques of analysis, such as renormalization techniques and comparison with independent percolation.

Recently, there has been very important progress in this field, with most new results employing a so-called multi-scale analysis to control the dependences in the model. Multi-scale analysis proved to be an extremely powerful technique; it has been employed in areas beyond particle system, one notable example being the study of random interlacements, where it has been playing a fundamental role. Despite its power, a multi-scale analysis can be quite involved to implement and can become very technical. In particular, it usually needs to be developed from scratch for each application as it needs to be tailored to each specific question being analyzed.

The goal of this course is to explain the multi-scale analysis in a didactic and comprehensible way, demystifying this technique, and explaining its main aspects (the ones that are common to most
applications) and the most common variations.
In order to do this we will concentrate on one problem: the analysis of the spread of an infection among particles that move as independent simple random walks.


 


 
  • Alexandre STAUFFER ( astauffer@mat.uniroma3.it - Dipartimento di Matematica e Fisica )  

Begins February, 24 2020
 
  • Alessandro VERRA ( verra@mat.uniroma3.it - Dipartimento di Matematica e Fisica )  
PYTHON SECOND EDITION

Python second edition

The second edition of Python@RomaTRE will be hosted on Microsoft Teams platform.
Like last year we're going to explore the most advanced concepts of Python programming.
This year, due to the current unforeseen situation, we'll have to access our lessons via the Web.

Lessons will be given on 19 May, 26, May, 3 June, and 9 June from 14:30 to 18:30.

Half time will be focused on theory, while on the other half you may test what we've explained through specific exercises that will skill you in python programming.
From 5th May we'll open to subscriptions with a web site (http://paolacelio.it) where you can find all tools necessary for following seminars and testing code (a virtual machine devoted to machine learning development, exercises, literature, and ofc lessons).

Lessons will be helded by
dr Paola Celio (Dipartimento di Matematica e Fisica Università degli Studi Roma TRE),
dr Pietro Corsi (Dipartimento di Scienze Università degli Studi Roma TRE),
dr Sergio Lins (Dipartimento di Scienze di base e applicate per l'ingegneria Università degli Studi La Sapienza)


 

May- June 2020
 
  • Paola CELIO ( celio@fis.uniroma3.it - Universita degli Studi Roma TRE )  
  • Corsi Pietro ( pietro.corsi@uniroma3.it - Universita degli Studi Roma TRE )  
  • Sergio Augusto Barcelo Lins ( - Universita La Sapienza )  
PYTHON BASICS

Python Basics

Python Basics consists in a series of 8 lessons hosted at Dipartimento di Matematica  e Fisica - Università degli Studi Roma TRE. 
The seminars will cover the fundamentals of Python, starting from the basics. A relevant of part of the seminars will be devoted to hands-on exercises, which we strongly recommend to the attendees. No prior knowledge of Python is required.  

Starting from really basic notions, the students will get acquainted with the standard programming techniques used in Python;
moreover, to test the competences acquired by the students,  the last 2 lessons will be devoted to the implementation of an actual problem that subsumes most of what has been explained during the lessons.

certificate of attendance will be issued to all participants.

 


Nov-Dec 2019
 
  • Paola CELIO ( celio@fis.uniroma3.it - Universita degli Studi Roma TRE )  
  • Corsi Pietro ( pietro.corsi@uniroma3.it - Universita degli Studi Roma TRE )  
  • Sergio Augusto Barcelo Lins ( - Universita La Sapienza )  

Sept-Oct, 2019
 

ONLINE COURSES (GSSI-SISSA)    N : 3

Course nameNotePeriodTime
Table
GINZBURG-LANDAU THEORY OF SUPERCONDUCTIVITY

Ginzburg-Landau Theory of Superconductivity

A series of three online minicourses in mathematical quantum mechanics and field theory, organized by Serena Cenatiempo (GSSI), Gianfausto Dell’Antonio and Marcello Porta, Each minicourse will consist in two lectures of two hours. The minicourses will have an introductory scope, no particular background on the topics will be assumed.
You can find the abstracts of the minicourses and some introductory references at:

https://indico.gssi.it/event/127/ <https://indico.gssi.it/event/127/>

Participants are kindly asked to register on the webpage. Below, you can find the zoom link of all the lectures.
 


semester II
 
STOCHASTIC QUANTIZATION

Stochastic Quantization

A series of three online minicourses in mathematical quantum mechanics and field theory, organized by Serena Cenatiempo (GSSI), Gianfausto Dell’Antonio and Marcello Porta. Each minicourse will consist in two lectures of two hours. The minicourses will have an introductory scope, no particular background on the topics will be assumed.
You can find the abstracts of the minicourses and some introductory references at:

https://indico.gssi.it/event/127/ <https://indico.gssi.it/event/127/>

Participants are kindly asked to register on the webpage. Below, you can find the zoom link of all the lectures.
 


semester II
 
THE SCALING LIMIT OF NON-INTEGRABLE ISING MODELS

The scaling limit of non-integrable Ising models

A series of three online minicourses in mathematical quantum mechanics and field theory, organized by Serena Cenatiempo (GSSI), Gianfausto Dell’Antonio and Marcello Porta . Each minicourse will consist in two lectures of two hours. The minicourses will have an introductory scope, no particular background on the topics will be assumed.
You can find the abstracts of the minicourses and some introductory references at:

https://indico.gssi.it/event/127/ <https://indico.gssi.it/event/127/>

Participants are kindly asked to register on the webpage. Below, you can find the zoom link of all the lectures.
 


semester II
 

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Admin 04 Settembre 2019