Electro-absorption modulation with an integrated photodetector

What is claimed is: 1. A system for electro-absorption modulation, comprising: a waveguide; a photodetector configured with respect to the waveguide for detecting luminous intensity of an optical signal; an electro-absorption modulator configured with respect to the waveguide for electro-absorption modulation of the optical signal, the photodetector and the electro-absorption modulator being formed of same materials; and an integrated heating element located alongside and spaced apart from both the photodetector and the electro-absorption modulator, the integrated heating element configured for controllably heating the photodetector and the electro-absorption modulator. 2. The system according to claim 1 , wherein the electro-absorption modulator is a segmented electro-absorption modulator. 3. The system according to claim 1 , wherein: the waveguide has an ingress end configured for receiving the optical signal and an egress end configured for outputting the optical signal; and the photodetector is spaced apart from an ingress side of the electro-absorption modulator and located between the ingress end of the waveguide and the ingress side of the electro-absorption modulator. 4. The system according to claim 3 , wherein: the waveguide has a first side associated with a first dopant portion of the waveguide and a second side opposite the first side associated with a second dopant portion of the waveguide, the first side and the second side of the waveguide being between the ingress end and the egress end of the waveguide; the photodetector has a detector anode alongside the first side of the waveguide and a detector cathode alongside the second side of the waveguide, the detector anode and the detector cathode having surfaces respectively facing the first side of the waveguide and the second side of the waveguide aligned to one another for providing a first electric field across the waveguide from the first dopant portion to the second dopant portion to detect the luminous intensity of the optical signal; the electro-absorption modulator has a modulator anode alongside the first side of the waveguide and a modulator cathode alongside the second side of the waveguide, the modulator anode and the modulator cathode having surfaces respectively facing the first side and the second side of the waveguide aligned to one another for providing a second electric field across the waveguide from the first dopant portion to the second dopant portion to modulate the optical signal; and the photodetector and the electro-absorption modulator are formed of same processing operations. 5. The system according to claim 4 , wherein the integrated heating element is a first integrated heating element located alongside and spaced apart from both the detector anode and the modulator anode on an anode side with respect to the waveguide, the system further comprising: a second integrated heating element located alongside and spaced apart from both the detector cathode and the modulator cathode on a cathode side with respect to the waveguide. 6. The system according to claim 3 , wherein the photodetector is a first photodetector, the system further comprising: a second photodetector located with respect to the waveguide for detecting optical modulation amplitude of the optical signal having modulation by the electro-absorption modulator, the second photodetector spaced apart from an egress side of the electro-absorption modulator being located between the egress end of the waveguide and the egress side of the electro-absorption modulator. 7. The system according to claim 6 , wherein the integrated heating element is a first integrated heating element located alongside and spaced apart from both the first photodetector and the electro-absorption modulator on an anode side with respect to the waveguide for thermal control thereof, the system further comprising: a second integrated heating element located alongside and spaced apart from both the first photodetector and the electro-absorption modulator on a cathode side with respect to the waveguide for thermal control thereof; and the first integrated heating element and the second integrated heating element being spaced apart from the second photodetector for thermal isolation. 8. The system according to claim 6 , wherein the integrated heating element is a first integrated heating element located alongside and spaced apart from each of the first photodetector, the electro-absorption modulator and the second photodetector on an anode side with respect to the waveguide for thermal control thereof, the system further comprising: a second integrated heating element located alongside and spaced apart from each of the first photodetector, the electro-absorption modulator and the second photodetector on a cathode side with respect to the waveguide for thermal control thereof. 9. The system according to claim 1 , further comprising: a thermal tuning circuit coupled to the integrated heating element. 10. The system according to claim 9 , wherein the thermal tuning circuit coupled to the integrated heating element comprises: a current-controlled voltage source configured to receive a photocurrent signal from the photodetector to provide an output voltage signal; a level tracking circuit configured to receive the output voltage signal to provide an eye opening adjustment signal; a thermal controller configured to receive the eye opening adjustment signal to provide a thermal control signal; and a heater driver configured to receive the thermal control signal to provide a heater activation signal to the integrated heating element. 11. The system according to claim 9 , wherein the photodetector is a first photodetector, the system further comprising: a second photodetector located with respect to the waveguide for detecting optical modulation amplitude of the optical signal having modulation by the electro-absorption modulator; and wherein the thermal tuning circuit coupled to the integrated heating element comprises: a first current-controlled voltage source configured to receive a first photocurrent signal from the first photodetector to provide a first output voltage signal; a second current-controlled voltage source configured to receive a second photocurrent signal from the second photodetector to provide a second output voltage signal; a level tracking circuit configured to receive the first output voltage signal and the second output voltage signal to provide an eye opening adjustment signal; a thermal controller configured to receive the eye opening adjustment signal to provide a thermal control signal; and a heater driver configured to receive the thermal control signal to provide a heater activation signal to the integrated heating element. 12. A system for electro-absorption modulation, comprising: a waveguide; an electro-absorption modulator configured with respect to the waveguide for electro-absorption modulation of an optical signal to provide an modulated optical signal; a photodetector located with respect to the waveguide for detecting optical modulation amplitude of the modulated optical signal having modulation by the electro-absorption modulator, the photodetector located between an egress end of the waveguide and an egress side of the electro-absorption modulator, an integrated heating element located alongside and spaced apart from the electro-absorption modulator and spaced apart from the photodetector; a level tracking circuit configured to provide an eye opening adjustment signal based on a photocurrent signal from the photodetector; and a thermal tuning circuit coupled to the integrated heating elem