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Welcome to the World of Experimental Condensed Matter Physics Division , |
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Members: Prof. Kamal Kumar Bardhan and Prof Chandidas Mukherjee. Activity: Electrical in composites of Metal-Insulator and other disorder system. Fluid Flow through porous & granular media. Transition behaviour of liquid crystalline phase. >>more |
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Members: Prof A.Ghoshray, Prof. K.Ghoshray , Dr. B.Bandyopadhyay Activity:Electronic properties of metal-hydrogen systems, dense Kondo systems, topologically frustrated systems, magnetic oxides, and metallic multilayers prepared by electro deposition are studied by cw and pulsed NMR measurements. >>more |
Members:Prof R.Ranganathan Activity : Static and Dynamic response of complex magnetic materials (bulk and nano particle )Micro structure, magneto crystalline anisotropy, domain wall motion, pinning. Cryogenics collaboration project with VECC to characterize the SC cable, Joint technique, and Prototype magnet, quench detection, materials characterization at Low temperature etc., for Super conducting cyclotron. Magnetic calorimetric effect focusing on Rare earth systems . >>more
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Members: Dr. (Smt) Barnana Pal Activity: This laboratory is equipped with facilities suitable for the measurement of ultrasonic velocity and attenuation in solids, and their variation with temperature. Presently work is going on to study the variation of the acoustic parameters near a structural transition. Development of a cw method to study samples with relatively small size is also on the way. Facilities available: Coherent pulse/cw spectrometer, Vacuum coating unit with thickness monitor, Thermostat with temperature measurement facilities ( R.T.-500 degree Centigrade).
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Members: Prof. A.I..Jaman Activity : Microwave Spectroscopy Laboratory is engaged in active research in the field of high resolution molecular spectroscopy. Several aspects of molecular structure e.g.Conformation, internal rotation etc. and other physical properties of organic molecules are being investigated by analysing their rotational spectra in the gas phase. Convetional Microwave, Radiofrequency-Microwave and Microwave-Microwave double resonance techniques are being used as experimental tools. Production and charactarisation of transient molecules of Chemical and astrophysical interest using millimeter wave technique is our future area of interest. Work is underway to construct an Infrared-Radio frequency double resonance spectrometer to study molecular properties in the excited vibrational state, the Infrared source being a CO2 laser . >>more
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