Analysis of detailed conditions required to realize optical Kerr bistable memory

Figure 2(a)-(b) shows the results of the analysis. The horizontal axis represents the photon lifetime of the resonator (the amount that depends on the coupling strength with the waveguide), and the vertical axis represents the deviation between the resonator's resonance wavelength and the input optical wavelength. The color map shows the driving power required to drive the optical memory under the conditions corresponding to the horizontal and vertical axes. The gray areas represent the points where memory operation becomes impossible due to the effects of accumulated heat. Figure 3 shows the relationship between the memory drive speed and the memory drive power obtained from the analysis. The results show that silica has a lower absorption coefficient than Si3N4 and can be driven with a power of 1.7 mW, whereas Si3N4 cannot be driven with a power of less than 1.8 W under any conditions. This study suggests that Si3N4, which has recently been attracting attention as a platform for nonlinear optical devices, may not be suitable for use in optical car memory, and also shows the advantage of the silica platform. In addition, the quantitative conditions required to drive the memory and its performance were clarified.