Nanosecond electro-optical switching with a repetition rate above 20MHz
arXiv:0710.1374 · doi:10.1063/1.2822101
Abstract
We describe an electro-optical switch based on a commercial electro-optic modulator (modified for high-speed operation) and a 340V pulser having a rise time of 2.2ns (at 250V). It can produce arbitrary pulse patterns with an average repetition rate beyond 20MHz. It uses a grounded-grid triode driven by transmitting power transistors. We discuss variations that enable analog operation, use the step-recovery effect in bipolar transistors, or offer other combinations of output voltage, size, and cost.
3 pages, 3 figures. Minor changes