We discuss device design for electroabsorption (EA) modulators using a double-pass (DP) configuration to attain low-voltage, high-speed operation for wide-wavelength 40 Gb/s optical intensity modulation. It is important to suppress residual antireflective-coated facet reflectivity R/sub 1/ for the input-output port and on-state propagation loss A/sub bs, on/ in the waveguide for reducing level change variation /spl Delta/ caused by the interference effect. As a result, R/sub 1/<0.5% and A/sub bs, on/<1.5 dB are required to obtain /spl Delta/ less than 1 dB. The most interesting features-reduced drive voltage and improved a figure of merit (bandwidth to drive voltage)-are found theoretically compared to those of conventional a single-pass (SP) configuration. Drive voltage reduction by introducing a DP configuration is clarified: the degree of the reduction is decided by nonlinearity "n" of absorption increase, assuming voltage dependence on increase of the absorption coefficient is proportional to the applied voltage to the n power (V/sup 11/). For the same device length, the drive voltage is decreased to 2/sup -1/n/ leading up to an improvement of a figure of merit up to 2/sup 1/n/. We then present experimental results for fabricated devices having an InGaAsP bulk absorption layer showing small interference effect and large improvement of characteristics. Drive voltages reduced to 52-60% are achieved over a SP configuration with the same waveguide length, which is in good agreement with the theoretical expectation of 2/sup -1/n/. Design window for 40 Gb/s modulation appears by introducing a DP configuration even for devices with a bulk absorber. Proper waveguide length design provides high performance with a low drive voltage /spl sim/1.2 V, a modulation bandwidth over 30 GHz (showing a figure of merit of /spl sim/25 GHz/V), an insertion loss below 8 dB, and a small variation of on-state loss less than 1 dB for wide wavelength range of input light from 1.545 to 1.558 /spl mu/m. An almost twice larger modulation index is confirmed even under a dynamic condition.