Up a level |
Verma, R and Nagendra, HN and Vivek, GA and Kasthurirengan, S and Shivaprakash, NC and Behera, U (2020) Studies on activated carbons towards the performance improvement of cryosorption pump. In: Cryogenics, 108 .
Hao, XH and Ju, YL and Behera, Upendra and Kasthurirengan, S (2011) Influence of working fluid on the performance of a standing-wave thermoacoustic prime mover. In: Cryogenics, 51 (9). pp. 559-561.
Praveen, RS and Jacob, Subhash and Murthy, CRL and Balachandran, P and Rao, YVKS (2011) Hybridization of carbon-glass epoxy composites: An approach to achieve low coefficient of thermal expansion at cryogenic temperatures. In: Cryogenics, 51 (2). pp. 95-104.
Rao, Radhika Rani and Prasad, Madhu and Srinivasan, Kandadai (2005) Optimum operating conditions for an adsorption cryocooler: a case of activated carbon + nitrogen system. In: Cryogenics, 45 (3). pp. 193-197.
Krishnaprakas, CK and Narayana, Badari K and Dutta, Pradip (2000) Heat transfer correlations for multilayer insulation systems. In: Cryogenics, 40 (07). pp. 431-435.
Prakash, Jose M and Prasad, Madhu and Rastogi, SC and Akkimaradi, BS and Gupta, PP and Narayanamurthy, H and Srinivasan, K (2000) Development of a laboratory model of activated charcoal-nitrogen adsorption cryocooler. In: Cryogenics, 40 (7). pp. 481-488.
Kasthurirengan, S and Hofmann, A (1998) Response to transient heat load in a helium II loop operated with a self-driven thermomechanical pump. In: Cryogenics, 38 (8). pp. 833-837.
Krishnamurthy, MV and Chandra, Rajneesh and Jacob, S and Kasthurirengan, S and Karunanithi, R (1996) Experimental studies on cool-down and mass flow characteristics of a demountable liquid nitrogen transfer line. In: Cryogenics, 36 (6). pp. 435-441.
Sreelakshmi, K and Satyam, M (1996) Estimation of low temperature characteristics of JFETs from their room-temperature characteristics. In: Cryogenics, 36 (5). pp. 325-331.
Kasthurirengan, S and Hofmann, A (1993) Studies on helium flow in experimental loops with different impedances operated with fountain effect pumps. In: Cryogenics, 33 (12). pp. 1125-1131.
Jacob, S and Kasthurirengan, S and Karunanithi, R (1992) Investigations into the thermal performance of multilayer insulation (300- 77 K) Part 1: Calorimetric studies. In: Cryogenics, 32 (12). pp. 1137-1146.
Jacob, S and Kasthurirengan, S and Karunanithi, R (1992) Investigations into the thermal performance of multilayer insulation (300- 77 K) Part 2: Thermal analysis. In: Cryogenics, 32 (12). pp. 1147-1153.
Lakshmi, MVS and Satyam, M (1992) A bidirectional clipper using superconductors. In: Cryogenics, 32 (3). pp. 300-302.
Karunanithi, R and Raychaudhuri, AK and Szücs, Z and Shivashankar, GV (1991) Behaviour of power MOSFETs at cryogenic temperatures. In: Cryogenics, 31 (12). pp. 1065-1069.
Srikanth, H and Raychaudhuri, AK (1991) Versatile system for point contact conductance spectroscopy. In: Cryogenics, 31 (6). pp. 421-424.
Srinivasan, K (1989) Diffusion of krypton in liquid argon at infinite dilution. In: Cryogenics, 29 (9). pp. 935-936.
Thirumaleshwar, M and Sharma, RC and Subramanyam, SV (1987) Spool valve mechanism used in a 20 K Gifford-McMahon cycle cryorefrigerator and its effect on the P-V diagram. In: Cryogenics, 27 (10). 582 -585.
Thirumaleshwar, M and Subramanyama, SV (1986) Two stage Gifford-McMahon cycle cryorefrigerator operating at 20 K. In: Cryogenics, 26 (10). 547 -555.
Thirumaleshwar, M and Subramanyam, SV (1986) Exergy analysis of a Gifford-McMahon cycle cryorefrigerator. In: Cryogenics, 26 (4). 248 -251.
Thirumaleshwar, M and Subramanyam, SV (1986) Gifford-McMahon cycle- a theoretical analysis. In: Cryogenics, 26 (3). pp. 177-188.
Thirumaleshwar, M and Subramanyam, SV (1986) Heat balance analysis of single stage Gifford-McMahon cycle cryorefrigerator. In: Cryogenics, 26 (3). pp. 189-195.
Kasthurirengan, S and Schotte, U and Denner, HD and SziJcs, Z and Klipping, G (1985) Use of narrow-pore filters in He II transfer devices - new results. In: Cryogenics, 25 (9). pp. 518-525.
Vaidya, SN and Gopal, ESR (1966) Melting of inert gas solids at high pressures. In: Cryogenics, 6 (6). pp. 372-373.