Differential TWE MZM driver for silicon photonics

What is claimed is: 1. A differential traveling wave electrode (TWE) Mach-Zehnder-Modulator (MZM) driver, comprising: a differential driver with a first differential output and a second differential output that collectively form a differential pair, wherein: the first differential output is DC coupled to a cathode of a first arm optical phase shifter of a TWE MZM; the second differential output is DC coupled to a cathode of a second arm optical phase shifter of the TWE MZM; a first capacitor that AC couples the second differential output to an anode of the first arm optical phase shifter; a second capacitor that AC couples the first differential output to an anode of the second arm optical phase shifter; a first termination coupled to the cathode and the anode of the first arm optical phase shifter; and a second termination coupled to the cathode and the anode of the second arm optical phase shifter. 2. The differential TWE MZM driver of claim 1 , further comprising: a first bias resistor coupled between a first node and ground, wherein the first node is coupled between the first capacitor and the anode of the first arm optical phase shifter; and a second bias resistor coupled between a second node and ground, wherein the second node is coupled between the second capacitor and the anode of the second arm optical phase shifter. 3. The differential TWE MZM driver of claim 2 , wherein: the first termination comprises a first termination resistor and a first termination capacitor, the first termination resistor coupled to the cathode of the first arm optical phase shifter and the first termination capacitor coupled between the first termination resistor and the anode of the first arm optical phase shifter; and the second termination comprises a second termination resistor and a second termination capacitor, the second termination resistor coupled to the cathode of the second arm optical phase shifter and the second termination capacitor coupled between the second termination resistor and the anode of the second arm optical phase shifter. 4. The differential TWE MZM driver of claim 3 , wherein each of the first capacitor and the second capacitor has a capacitance of 2.5 picofarads (pF). 5. The differential TWE MZM driver of claim 3 , wherein each of the first bias resistor and the second bias resistor has a resistance of 5 kiloOhms (kΩ). 6. The differential TWE MZM driver of claim 3 , wherein each of the first termination resistor and the second termination resistor has a resistance of 40 ohms (Ω). 7. The differential TWE MZM driver of claim 3 , wherein each of the first termination capacitor and the second termination capacitor has a capacitance of 1.5 pF. 8. The differential TWE MZM driver of claim 3 , wherein the first capacitor, the second capacitor, the first termination resistor, the second termination resistor, the first termination capacitor, and the second termination capacitor are integrated on chip with the differential driver. 9. The differential TWE MZM driver of claim 1 , wherein: the first arm optical phase shifter comprises a first plurality of carrier depletion reverse biased PN diodes; the second arm optical phase shifter comprises a second plurality of carrier depletion reverse biased PN diodes; the TWE MZM includes a first arm TWE coupled to the first plurality of carrier depletion reverse biased PN diodes and a second arm TWE coupled to the second plurality of carrier depletion reverse biased PN diodes; the first arm TWE includes a first plurality of transmission line segments electrically coupled in series to form a first conductor of a first two-conductor transmission line and a second plurality of transmission line segments electrically coupled in series to form a second conductor of the first two-conductor transmission line; the first plurality of carrier depletion reverse biased PN diodes are coupled in parallel between the first and second conductors of the first two-conductor transmission line to form a first plurality of optical phase shifter sections; each of the first plurality of optical phase shifter sections includes a corresponding one of the first plurality of transmission line segments, a corresponding one of the second plurality of transmission line segments, and a corresponding one of the first plurality of carrier depletion reverse biased PN diodes with its cathode coupled to the corresponding one of the first plurality of transmission line segments and its anode coupled to the corresponding one of the second plurality of transmission line segments; the second arm TWE includes a third plurality of transmission line segments electrically coupled in series to form a first conductor of a second two-conductor transmission line and a fourth plurality of transmission line segments electrically coupled in series to form a second conductor of the second two-conductor transmission line; the second plurality of carrier depletion reverse biased PN diodes are coupled in parallel between the first and second conductors of the second two-conductor transmission line to form a second plurality of optical phase shifter sections; each of the second plurality of optical phase shifter sections includes a corresponding one of the third plurality of transmission line segments, a corresponding one of the fourth plurality of transmission line segments, and a corresponding one of the second plurality of carrier depletion reverse biased PN diodes with its cathode coupled to the corresponding one of the third plurality of transmission line segments and its anode coupled to the corresponding one of the fourth plurality of transmission line segments; the first differential output is DC coupled to the cathode of the first arm optical phase shifter by being DC coupled to the cathode of each of the first plurality of carrier depletion reverse biased PN diodes through one or more of the first plurality of transmission line segments; the second differential output is DC coupled to the cathode of the second arm optical phase shifter by being DC coupled to the cathode of each of the second plurality of carrier depletion reverse biased PN diodes through one or more of the third plurality of transmission line segments; the second differential output is AC coupled to the anode of the first arm optical phase shifter by being AC coupled to the anode of each of the first plurality of carrier depletion reverse biased PN diodes through the first capacitor and one or more of the second plurality of transmission line segments; and the first differential output is AC coupled to the anode of the second arm optical phase shifter by being AC coupled to the anode of each of the second plurality of carrier depletion reverse biased PN diodes through the second capacitor and one or more of the fourth plurality of transmission line segments. 10. A traveling wave electrode (TWE) Mach-Zehnder-Modulator (MZM), comprising: an input waveguide coupled to a continuous wave (CW) laser to receive a CW input beam; a first arm optical waveguide coupled to receive a first portion of the CW input beam from the input waveguide; a second arm optical waveguide coupled to receive a second portion of the CW input beam from the input waveguide; a first arm optical phase shifter coupled to the first arm optical waveguide; a second arm optical phase shifter coupled to the second arm optical waveguide; a differential TWE MZM driver coupled to the first and second arm optical phase shifters, wherein the differential TWE MZM driver includes: a differential driver with a first differential output and a second differential output that collectively form a differential pair, wherein: the first differential output is DC coupled to a