The Physics and Mathematics areas of the International School for Advanced Studies (SISSA) of Trieste are among the best 350 departments in the Italian university system. As a result of this ranking, they will have access to the funding of 180 departments with almost 300 million euros beginning in 2018. The ranking was compiled on the basis of the evaluation of research quality (VQR) released by ANVUR – the National Agency for the Evaluation of the University and Research Systems.
A unique opportunity for everybody with a passion for research. SISSA offers 2 fellowships in the framework of an "Advanced Training Programme" leading to a fast track PhD in connection with the Inter-University Master course in Physics jointly delivered by the Universities of Trieste and Udine. The program lasts 2 years and is aimed to candidates who wish to acquire theoretical tools and necessary skills to start a high level research activity in Theory and Numerical Simulation of Condensed Matter Physics. Application will be accepted from 12 May to 20 July 2017.
It was already known that people affected by Parkinson’s disease, when subjected to deep brain stimulation, gained weight, but it was less clear why that was so. Thanks to new SISSA research, it has been realized that the weight gain after implant has a multifactorial origin.
SAGA (a global UNESCO project with the support of Sida) aims to contribute to improving the situation of women and reducing the gender gap in science, technology, engineering and mathematics (STEM) fields in all countries at all levels of education and research. A distinguishing feature of SAGA is its focus on data. Some of its core methodologies are determination, measurement and assessesment of sex-disaggregated data.
New approaches to the study of vision both from the neurobiological perspective and with a view to the technological development of artificial vision systems: that is the key result of the research project led by the International School for Advanced Studies (SISSA) in Trieste in collaboration with the Istituto Italiano di Tecnologia (IIT) in Rovereto and published in the science journal eLife.
Collective changes in biological groups require all individuals in the group to go through a behavioral change of state. Sometimes these changes are triggered by external perturbations, as in evasive maneuvers of animal groups under predatory attacks. Often, however, they occur spontaneously and are only due to internal behavioral fluctuations. In all cases, the efficiency of information transport is a key factor to prevent cohesion loss and preserve collective robustness.
From JUNE 26TH TO JULY 7TH 2017 | SISSA
The 7th Neuron Technology Summer School aims to provide practical and theoretical training on the application of a large spectrum of techniques to neuroscience.
The School will address the following topics:
According to Istat, almost 7 million women in Italy are mistreated by their partners in the course of their life. Every year, more than 100 women are killed by someone they once trusted. More and more often journalist are asked to tell these tragic stories. In this sensitive context, the word choice is of great importance as it may help to bring about cultural change that would ensure that the most vulnerable members of society, like women, old people and children, are protected and respected.
The silence of an immense desolate land in which to search for reverberations coming from the time at which everything began. The Simons Observatory will be built in the Chilean Atacama desert at an altitude of several thousand meters for the purposes of studying primordial gravitational waves which originated in the first instants of the Big Bang. The SISSA research group led by Carlo Baccigalupi and Francesca Perrotta will take part in this prestigious international project which will lead to the realization of an ultra-modern telescope project.
On Wednesday 22 March 2017 the historian of physics Anna Maria Lombardi will give a seminar dedicated to the German astronomer Johannes Kepler. Kepler’s laws are encompassed by the laws of classical mechanics established by Newton in 1687. But they were discovered almost 80 years before, in a dramatically different context, in which the German astronomer could rely neither on appropriate maths or physics, nor on what we call nowadays “scientific method”. How could he succeed in finding his astronomical laws?