Arunava Adhikari - Department of Biotechnology

Reader

Dr. Arunabha Adhikari
Reader, Physics Department

M.Sc in Physics from Calcutta University in 1986. Post M.Sc. Associateship Course in Biosciences from Saha Institute of Nuclear Physics 1987.
Ph.D. from Saha Institute of Nuclear Physics (Calcutta University) 1992 entitled Theoretical Simulation of Calcium Action Potential in Squid Giant Synapse, Supervisor Prof. Kamales Bhaumik.

Post Doctoral Experiences:

1.	December 15 1992-July 15 1995 Molecular Biology Unit, Indian Institute of Science, Bangalore Worked on Whole cell and single channel Patch Clamp recording from acute cultured cells and cell lines and the associated data analysis with relevant software development.
2.	July 16 1995-October 10 1995 Theoretical Nuclear Physics, Saha Institute of Nuclear Physics Worked on development of Patch Clamp data analysis.
3.	October 10 1995 – November 30 1996 Physiogisches Institüt der Universität des Saarlandes, Deutchland Worked on Patch Clamp on amyloride sensitive Na channels in frog and rat taste cells and also on theoretical calculation of blurring in epifluorescence calcium ration imaging.
4.	December 1 1996 –May 6 1997 Theoretical Nuclear Physics, Saha Institute of Nuclear Physics Continued the earlier work
5.	November 1 1997- December 1 1997 Physiogisches Institüt der Universität des Saarlandes, Deutchland Continued the earlier work.

Teaching :
	From May 1997- May 2001 worked as a lecturer and then from May 2001-December 2005 worked as a senior lecturer in Physics Department of Gobardanga Hindu College, 24 Parganas (North). From December 2005 onwards in the present Position.

Research Interests:
1.	Theoretical Neuroscience
2.	Bio-mimetic Image Processing.
3.	Neural Network.

List of Publications :

1.	Theoretical Simulation of Calcium Action Potential in Squid Giant Synapse: Ph.D. Thesis submitted to the University of Calcutta in March 1993

2.	Theoretical Simulation of Calcium Action Potential in Squid Giant Synapse: The Rising Phase, Indian Journal of Physics, 748, 505-516 (1991)

3.	Theoretical Simulation of Calcium Action Potential in Squid Giant Synapse: The Plateau Termination: J. Biol. Phys. 18, 151-165 (1991)

4.	Theoretical Simulation of Calcium Action Potential in Squid Giant Synapse: Repetitive Simulation: J. Biol. Phys., 19, 71-84 (1993)

5.	Kinetic Characterization of Rat Brain type IIA sodium channel a-subunit stably expressed in a somatic cell line. J. Physiol., 488, 633-645 (1995)

6.	A large Conductance Ca2+ activated K+channel in aT3-1 pituitary gonadotrophs, Current Science, India, 70, 349-853 (1996)