National Institute for Nuclear Physics | INFN Accelerators

 
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INFN section Napoli

INFN – Napoli

 

Projects / collaborations:

Eupraxia

Novel fundamental research compact European plasma accelerator with superior beam quality.

This project has received funding from the European Union's Horizon 2020 research and innovation program under grant agreement No 653782.

 

Technological research:

INFN CSN5

CSN5 coordinates technological research and application development and promotes the use, in other fields, of tools, methods and technologies of fundamental physics. INFN is a solid reference at a national and international level for the development of future prototypes and the construction of today's particle accelerators. These are used, as well as in fundamental physics research, in other fields of research and in economic and social life.

 

ARYA - SurfAce and mateRial studies for Accelerator TechnologY And related topics

 

SL_COMB2FEL

The experiment called SL COMB2FEL aims at the acceleration, manipulation and transport of high brightness electron beams by resonant plasma wakefields

 

TERA

Terahertz radiation (1 THz = 33 cm-1 = 4 meV = 300 μm = 48 K = 1 ps) represents a cutting-edge scientific and technological tool in various physics fields of interest to INFN. These range from new particle acceleration techniques (from acceleration to their diagnostics), to medical physics, to detectors for dark matter, to opto-electronic devices for manipulating the properties of radiation (phase, amplitude, polarization), to innovative materials.

 

Collaboration agreement with CERN for THz characterization of coating materials

Collaboration agreement (with the University of Naples) with CERN for the use of metamaterials in machine elements

- investments in the development of high-brightness sources with plasma accelerators

 

 

Instrumentation:

  • Vector Network Analyzer (up to 20GHz)
  • Spectrum analyzer (up to 26GHz)
  • Sweep generator up to 14 GHz
  • CW generators up to 20 GHz
  • Time Domain Spectrometers 0.1 - 5 THz
  • 1 Flow cryostat with optical windows for measurements 3.5 - 300 K
  • Computing server with electromagnetic 3D codes (e.g. CST)

 

Skills:

  • Microwave measurements
  • Design and test of innovative devices for particle accelerators (part em)
  • Design, construction and testing of THz devices
  • THz measurements in transmission and reflection
  • THz ellipsometry measurements (in progress)
  • Design of innovative accelerating structures
  • Wakefield and coupling impedances
  • Dynamics of beams in linear and circular machines
  • Wakefield and coupling impedances in conventional and plasma accelerators
  • Laser-plasma acceleration (LWF)
  • PWF acceleration
  • Static and dynamic plasma lenses
  • Plasma undulators
  • Radio frequency measurements
  • Non-linear effects in plasmas: self-modulation, self-constriction, self-focusing of packets of charged particles and / or EM radiation

 

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infn pulsante 2017
 

tt infn 2017
asimmetrie pulsante blu3
traspsarenza

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