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The brain’s RAM

Thousands of times a day, the brain stores sensory information for very short periods of time in a working memory, to be able to use it later. A research study carried out with the collaboration of SISSA has shown, for the first time, that this function also exists in the brain of rodents, a finding that sheds light on the evolutionary origins of this cognitive mechanism.

Molecules as circuits

The progressive miniaturization of electronic devices requires the creation of increasingly small circuits. With traditional technology, this miniaturization is hampered by the limits imposed by physics, but some have thought of using molecules as circuits.

If molecules are to be able to do this efficiently, they need to improve their poor conduction ability. In a study published in PNAS, a team of researchers featuring Ryan Requist, Erio Tosatti and Michele Fabrizio of SISSA shows how the Kondo effect can improve the conductivity of some magnetic molecules.

3D printing and “mechatronics” at SISSA

The arrival of a new 3D printer marks the start of a "mechatronic" age at SISSA. The new laboratory will enable SISSA investigators to be increasingly self-sufficient in designing and constructing the experimental setups and machinery needed for their studies.

Thanks to sophisticated equipment, including a new-generation 3D printer, and to the laboratory's expertise, scientists will no longer have to adapt their research to the constraints of existing technology but will be able to work more creatively, developing technology that fits the needs of scientific investigation.

Nanofriction on the tip of the microscope

A research paper published in the journal Nature Materials, the result of the collaboration between a group of theoretical physicists from the International School for Advanced Studies (SISSA) in Trieste and a group of experimental physicists from the University of Basel, reveals the secrets of the nanofriction produced when an atomic force microscope observes the surface of certain materials.

Viral puzzles

The genome of viruses is usually enclosed inside a shell called capsid. Capsids have unique mechanic properties: they have to be resistant and at the same time capable of dissolving in order to release the genome into the infected cell.

The scientists of the International School for Advanced Studies (SISSA) of Trieste have coordinated a study on the mechanic properties of viruses that have improved their understanding, so much that they were able to make conjectures on the behavior of still little-known viruses

SISSA Welcome Day: focussing on students

November 20th 2013 

From 9.30 AM onwards

SISSA, Main Lecture Hall

Once again this year, Sissa hosted the traditional Welcome Day to welcome new students and publicly present its activities. The event provided an opportunity to make an assessment of the past year's work, to award a number of students and staff members for their achievements and to introduce the latest projects, like this year's Sissa Carpooling. 

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