... Curve C with the data points (stars) represents configuration #4, for which we obtain K-1.1. ... a negative contribution into the magnetic field #5 (diamonds), overlapinline connection with a positive contribution #4 (stars ...
... superfluid 3He,13,14 very small for high-Tc superconductors.16 Although the best fit to the stars alone is = 0.25, when seen in conjunction with our new data, this value is not so compelling, due to the poor statistics and to the scattering of the stars ...
... lattice obtained by setting to zero amplitude of Josephson vortex flow resistance oscillations with a period of 0/2 for two Bi-2212 samples (denoted by squares and stars, respectively). for Bi-2212 single crystals corresponds to TBKT Tc = 3.5 K [5 ...
... Experimental data for the RT PLL with the BW of 12 MHz are shown by stars, for the CPLL with BW 25 MHz by squares and triangles show results for new CPLL with BW 40 MHz. ...
... 10 Integrated Submm Wave Receiver: Development and Applications 275 "stacked" stars at certain frequencies for the NbN FFO mean ... Each star corresponds to an "allowed" bias current at an FS (as described above in Sect. 2.1). ...
... SQUIDs. a, Schematic of a complementary d.c.-SQUID employing two conventional Josephson junctions (red crosses) and a -junction (orange star). b, Schematic of a conventional d.c.-SQUID used as a reference device. c, A scanning electron micrograph of the ...
... Er emerging upon application of different heterodyne spectra for the direct and inverse problems vs. the SR of the PL FFO spectra used for simulation of the direct problem: (stars) results of deconvolution and (squares) results of the iterative procedure ...