CYCLOTRONS 2010 - List of Authors (Rashid, M.H.)

Paper	Title	Page
MOPCP041	Beam Tuning in Kolkata Superconducting Cyclotron	132
	M.K. Dey, R.K. Bhandari, U. Bhunia, J. Debnath, A. Dutta, C. Mallik, Z.A. Naser, S. Paul, J. Pradhan, M.H. Rashid DAE/VECC, Calcutta, India
	The Superconducting cyclotron at VECC, Kolkata, has accelerated ion beams up to extraction radius successfully confirmed by the neutrons produced by the nuclear reactions. The internal beam tuning process started with beam parameters calculated using the measured magnetic field data. Due to some mechanical and electrical problems we were forced to tune the beam with three major trim coils off. Accurate positioning of central region Dee-extensions ensuring the proper acceleration gaps in the first turn was required for successful acceleration of beam through the compact central region clearing the posts in the median plane. Here we present different aspects and results of initial beam tuning.

MOPCP044	New Magnetic Einzel Lens and Its Beam Optical Features	141
	M.H. Rashid, R.K. Bhandari, C. Mallik DAE/VECC, Calcutta, India
	Magnetic cylindrical lens is used mostly in beam lines to focus and transport low energy beam. It is well known that focusing power of a magnetic solenoid lens depends on the ratio of particle momentum and electric charge. A solenoid rotates also an ion beam while focusing it and the phase space areas of the beam in x- and y-plane get entangled and increased. The paper reported here describes an effort to design a new magnetic Einzel lens using a pair of Glaser lens in anti-solenoid mode for the first time to get zero rotation of the exit beam. Analytical formulae have been generated to deduce the scalar magnetic potential and field along the central axis of the lens. Thereafter, beam optics and particle tracking is done using the combined field of a pair of Glaser Lenses constituting the magnetic Einzel lens. The required focusing power of the designed lens is achieved for a beam of given rigidity.

Paper

Title

Page

Beam Tuning in Kolkata Superconducting Cyclotron

132

M.K. Dey, R.K. Bhandari, U. Bhunia, J. Debnath, A. Dutta, C. Mallik, Z.A. Naser, S. Paul, J. Pradhan, M.H. Rashid
DAE/VECC, Calcutta, India

The Superconducting cyclotron at VECC, Kolkata, has accelerated ion beams up to extraction radius successfully confirmed by the neutrons produced by the nuclear reactions. The internal beam tuning process started with beam parameters calculated using the measured magnetic field data. Due to some mechanical and electrical problems we were forced to tune the beam with three major trim coils off. Accurate positioning of central region Dee-extensions ensuring the proper acceleration gaps in the first turn was required for successful acceleration of beam through the compact central region clearing the posts in the median plane. Here we present different aspects and results of initial beam tuning.

MOPCP044

New Magnetic Einzel Lens and Its Beam Optical Features

141

M.H. Rashid, R.K. Bhandari, C. Mallik
DAE/VECC, Calcutta, India

Magnetic cylindrical lens is used mostly in beam lines to focus and transport low energy beam. It is well known that focusing power of a magnetic solenoid lens depends on the ratio of particle momentum and electric charge. A solenoid rotates also an ion beam while focusing it and the phase space areas of the beam in x- and y-plane get entangled and increased. The paper reported here describes an effort to design a new magnetic Einzel lens using a pair of Glaser lens in anti-solenoid mode for the first time to get zero rotation of the exit beam. Analytical formulae have been generated to deduce the scalar magnetic potential and field along the central axis of the lens. Thereafter, beam optics and particle tracking is done using the combined field of a pair of Glaser Lenses constituting the magnetic Einzel lens. The required focusing power of the designed lens is achieved for a beam of given rigidity.