Description
THREE ADVANCED HIGH TECH TOPICS IMPACTING THE SIGNAL PROCESSING AT THE FRONT-END OF THE INSTRUMENTS ARE PRESENTED IN THOSE LECTURES:
- THE FIRST ONE IS RELATED TO ADVANCES IN SENSOR TECHNOLOGIES AND VERY DEEP SUB-MICROELECTRONICS TO DETERMINE WITH HIGHEST PRECISION, SPACE POSITION AND TIME (4D SPACE) PLUS IN SOME CASES ENERGY (5D SPACE).
- THE SECOND TOPIC IS ON QUANTUM SENSING WHICH ALLOWS FOR EXTREMELY PRECISE MEASUREMENTS. IT TRANSLATES INTO QUANTUM SENSING TECHNOLOGIES WHICH HAVE. A BROAD RANGE OF APPLICATIONS.
-THE THIRD ONE INTRODUCES TO THE INCREASING ROLE OF SUPRACONDUCTIVITY.
For the LHC magnets, the coherence between beam-physics requirements, magnet design, and magnetic measurements has been well established. This is far less evident in future accelerator projects. Hysteresis and eddy currents in iron-dominated magnets affect accelerator performance during fast field ramps to gain circulating beam time or when suppressing demagnetization cycles to save...
