Biomicrofluidic chemoemitter systems: towards pheromone communication

“…Evaluation of the transmission line inductance applying the Maxwell software package [24] yielded the sufficiently small value of L = 1.9 pH. The effect of this inductance, as can be seen from Fig.…”

“…The numerical evaluation of R, C and L in the transmission line with the lateral dimensions 30 µm by 150 µm yielded an optimum resistance value of 10 Ω and an optimum capacitance of 1.8 pF. Evaluation of the transmission line inductance applying the Maxwell software package [24] yielded the sufficiently small value of L = 1.9 pH. The effect of this inductance, as can be seen from Fig.…”

“…The numerical evaluation of R, C, and L in a transmission line with the lateral dimensions 30 μm × 150 μm yielded an optimum resistance value of 10 and an optimum capacitance of 1.8 pF. Evaluation of the transmission line inductance applying the Maxwell software package [25] yielded the sufficiently small value of L = 1.9 pH. The effect of this inductance, as can be seen from figure 2 (the corresponding curves are shown by dashed lines), is negligibly small in the range of frequencies of interest (up to 200-300 GHz, exceeding the plasma frequency νp by one order of magnitude).…”

Single flux quantum circuits with damping based on dissipative transmission lines

“…Evaluation of the transmission line inductance applying the Maxwell software package [24] yielded the sufficiently small value of L = 1.9 pH. The effect of this inductance, as can be seen from Fig.…”

“…The numerical evaluation of R, C and L in the transmission line with the lateral dimensions 30 µm by 150 µm yielded an optimum resistance value of 10 Ω and an optimum capacitance of 1.8 pF. Evaluation of the transmission line inductance applying the Maxwell software package [24] yielded the sufficiently small value of L = 1.9 pH. The effect of this inductance, as can be seen from Fig.…”

“…The numerical evaluation of R, C, and L in a transmission line with the lateral dimensions 30 μm × 150 μm yielded an optimum resistance value of 10 and an optimum capacitance of 1.8 pF. Evaluation of the transmission line inductance applying the Maxwell software package [25] yielded the sufficiently small value of L = 1.9 pH. The effect of this inductance, as can be seen from figure 2 (the corresponding curves are shown by dashed lines), is negligibly small in the range of frequencies of interest (up to 200-300 GHz, exceeding the plasma frequency νp by one order of magnitude).…”

Single flux quantum circuits with damping based on dissipative transmission lines