Transcript Slide 1
Simulating current voltage characteristics in Intrinsic Josephson junctions M. Hromnik Yu. M. Shukrinov M Gaafar BLTP, JINR, Dubna , Russia Layered Bi2Sr2CaCu2Oy(Bi2212) single crystals represent natural stacks of atomic scale intrinsic Josephson junctions. I S (3Å) I (12Å) Ca Cu S Sr O I Bi I-V characteristics X:50mV/div Y:100mA/div – Multi-branch structure – large hysteresis – Roughly equal spacing Applications of Josephson Junctions • Defines a Voltage standard - metrology • Quantum computing – single electron transistors • SQUIDS – superconducting quantum interface devices • able to measure magnetic fields down to 10^-18 T STJs – Superconducting tunnel junction detectors which make use of quantum electron tunneling through the JJ – high speed electrical circuits Numerical Procedure 4th order Runge Kutta method • Heavy duty computation – O(10^9) time steps • Intelligent data logging – on the fly averaging ensures a • • • manageable and meaningful output Intelligent disk IO – buffering (significant effect of performance) Looping technique to match experimental method Parallel computing options limited Time dependence div (0 E) = Q Ql=Q0 (Vl+1-Vl) Q0 = 0 V0/rD2 Current Voltage characteristics Longitudinal Plasma Wave Results from CJJ+DC model Thank you!