Here's a summary for you. He is giving tour of Pelletron, a particle accelerator in TIFR, Mumbai. Here ions (charged nuclei) are accelerated to a few MeV energy and the beam of ions fall into different target material (with target nuclei). The accelerator itself is made in a tower that is n meters (think 7 floor tall)... At the ground floor in the tower there are experiment halls where different experiments are done. In the experiment hall you can see the beam pipe through which accelerated ions travel. Whenever there is a bend in the path of the beam line, to bend the ions there are bending magnets. To focus the ions focusing magnets are used. (This field is called beam optics btw). In one of the experiments that he is working on, the accelerated ions will be bombard on fixed target. This will form "compound nucleus" which will decay into "excited states" which will decay into gamma rays (photon). Around the target gamma ray detectors are kept.
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Difficult to understand.
Here's a summary for you.
He is giving tour of Pelletron, a particle accelerator in TIFR, Mumbai. Here ions (charged nuclei) are accelerated to a few MeV energy and the beam of ions fall into different target material (with target nuclei). The accelerator itself is made in a tower that is n meters (think 7 floor tall)... At the ground floor in the tower there are experiment halls where different experiments are done. In the experiment hall you can see the beam pipe through which accelerated ions travel. Whenever there is a bend in the path of the beam line, to bend the ions there are bending magnets. To focus the ions focusing magnets are used. (This field is called beam optics btw).
In one of the experiments that he is working on, the accelerated ions will be bombard on fixed target. This will form "compound nucleus" which will decay into "excited states" which will decay into gamma rays (photon). Around the target gamma ray detectors are kept.
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