OPERA Experiment

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Introduction

The OPERA experiment has been designed to perform the most straightforward test of the phenomenon of neutrino oscillations. This experiment exploits the CNGS high-intensity and high-energy beam of muon neutrinos produced at the CERN SPS in Geneva pointing towards the LNGS underground laboratory at Gran Sasso, 730 km away in central Italy. OPERA is located in the Hall C of LNGS and it is aimed at detecting for the first time the appearance of tau-neutrinos from the transmutation (oscillation) of muon-neutrinos during their 3 millisecond travel from Geneva to Gran Sasso. In OPERA, tau-leptons resulting from the interaction of tau-neutrinos will be observed in "bricks" of photographic emulsion films interleaved with lead plates. The apparatus contains about 150000 of such bricks for a total mass of 1300 tons and is complemented by electronic detectors (trackers and spectrometers) and ancillary infrastructure. Its construction has been completed in spring 2008 and the experiment is currently in data taking.

General description

OPERA is located in the Hall C of the Gran Sasso underground labs. its construction started in 2003 and the apparatus has been completed in summer 2008. In OPERA, the tau leptons resulting from the interaction of tau neutrinos will be observed in “bricks” of photographic films (“nuclear emulsion”) interleaved with lead sheets. Each brick has an approximate weight of 8.3 kg and the two OPERA targets contain about 150000 bricks arranged into parallel walls and interleaved with plastic scintillator counters. Each target is followed by a magnetic spectrometer for momentum and charge identification of penetrating particles. During the data taking, a neutrino interaction is tagged in real time by the scintillators and the spectrometers, which also provide the location of the bricks where the neutrino interaction occurred. These bricks are extracted from the walls asynchronously with respect to the beam to allow for film development, scanning and for the topological and kinematic search of tau decays.

 
Schematic view of the OPERA experiment
One of the bricks of OPERA

 

 
The walls where the bricks are located interleaved with plastic scintillators
(only the black endcaps of the scintillators are visible)
One of the OPERA magnetic spectrometers

 

 
The automatic system for the development of the photographic films
Scanning microscopes at LNGS

 

A neutrino interaction vertex seen in the OPERA emulsion films

 

 

 

 


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