Skip to Content

Search Publications

You can search on any of the criteria listed below. If you use more than one criterion then every item you retrieve will satisfy all criteria you have used.

Click the SEARCH button to activate your search.

Results

  • Bubanja, V.*. 2002. Single electron devices. Proceedings of the 9th Electronics New Zealand Conference 2002, Dunedin. Baehr, John L. (ed). p.47-48. The Conference.
  • Bubanja, V.*. 1999. General model of damping in the time-of-swing experiment measuring the Newtonian gravitational constant. Physics letters. A. Vol.262(1) pp.15-17.
  • Bubanja, V.*. 2000. On the dynamic method of measuring the gravitational constant. Journal of Physical Society of Japan. Vol.69 (6), pp.1642-1644.
  • Bubanja, V.*. 2000. Rotation of coupled coordinate systems. Teaching mathematics and applications. Vol.19(1), p.35.
  • Bubanja, V.*. 2000. The ac -dc difference of single junction thermal converters. Journal of engineering mathematics. Vol.38 p.33-50.
  • Bubanja, V.*. 2000. Analytic results for the cotunneling current in the double junction system in series with RC line. Journal of the Physical Society of Japan. Vol.69,(12), pp.3932-3936.
  • Bubanja, V.*. 2014. Tunneling rates of electron pumping in the R-SINIS transistor. Journal of low temperature physics. Vol.175, issue 3-4 (May), p.564-579.
  • Bubanja, V.*. 2015. Quantum teleportation and entanglement swapping of electron spins in superconducting hybrid structures. Annals of physics. Vol.357, p.40-48.
  • Bubanja, V.*; Yamamoto, M.; Iwabuchi, S.. 2016. Nonequilibrium electron transport in a hybrid superconductor-normal metal entangler in a dissipative environment. Physical review B. Condensed matter and materials physics. Vol.94, no.18, article no.184515.
  • Bubanja, V.*; Early, M.D.*; Sasaki, H. 2000. Characteristics of single junction thermal converters. Conference Digest, Conference on Precision Electromagnetic Measurements. pp.228-229.
  • Bubanja, V.*; Gotoh, Y.; Matsumoto, K. 2000. Simulation of room temperature single electron memory. Spring meeting of the Japan Society of Applied Physics, 2000. Extended abstracts. pp.187.
  • Bubanja, V.*; Iwabuchi, S.*. 2011. Circuit influence on Cooper-pair current in solid-state entanglers. Physical review. B, Condensed matter and materials physics. Vol.84, article no.94501.
  • Bubanja, V.*; Iwabuchi, S.*. 2006. Non-perturbative approach for cotunneling processes in double junction system with external impedance. Conference digest : Conference on Precision Electromagnetic Measurements, July 2006, Turin, Italy. p.162.
  • Bubanja, V.*; Iwabuchi, S.*. 2009. Conductance of the capacitively coupled single-electron transistor with a Tomonaga-Luttinger liquid island in the Coulomb blockade regime. Physical review. B, Condensed matter and materials physics. Vol.79 no.3 (Jan.), Article number 035312 (9 p.).
  • Bubanja, V.*; Iwabuchi, S.*. 2007. Calculation of the nondivergent cotunneling rates in a double tunnel junction embedded in a dissipative electromagnetic environment. Journal of the Physical Society of Japan. Vol.76 no.7, Article number 073601 (5 p.).
  • Bubanja, V.*; Knezevic, M.; Vannimenus, J. 1993. Adsorption of a flexible self-avoiding polymer chain: exact results on fractal lattices. Journal of statistical physics. Vol.71, nos. 1/2 (1993), pp.1-21.
  • Bubanja, V.*; Matsumoto, K.; Gotoh, Y. 2001. Single electron memory at room temperature : experiment and simulation. Conference Advanced Research Workshop on Semiconductor Nanostructures (2001 : Queenstown). Conference presentation.
  • Bubanja, V.*; Matsumoto, K.; Gotoh, Y. 2001. Single electron memory. Annual Condensed Matter and Materials Meeting (25th : 2001 : Marlborough Sounds). 1 p.
  • Bubanja, V.*; Matsumoto, K.; Gotoh, Y. 2001. Single electron memory at room temperature : experiment and simulation. Japanese journal of applied physics. Part 1. v. 40, p.87-91.
  • Bubanja, V.*; van den Brink, A Maasen; Averin, D.V.; Schon, D. 1991. The I-V characteristic of a resistively shunted, small capacitance Josephson junction. Granular nanoelectronics. Ferry, D.K.; Barker, J.R.; Jacoboni, C. (eds). p.567-570. Plenum.