Light emitting apparatus and optical transmitting apparatus

What is claimed is: 1. A light emitting apparatus comprising: a semiconductor layer including a light emitting region that generates modulation light modulated with a first signal, and a feedback region that is configured so that a feedback mode to feed back a part of light generated in the light emitting region to the light emitting region and a monitor mode to monitor a light amount of the light generated in the light emitting region are switchable; and a controller, wherein when the modulation light is generated in the light emitting region, the controller sets the feedback region to the feedback mode, and the controller switches the feedback region to the monitor mode during at least a part of a period in which there is no first signal. 2. The light emitting apparatus according to claim 1 , wherein the semiconductor layer includes a first multilayer reflection mirror, an active region formed on the first multilayer reflection mirror, and a second multilayer reflection mirror formed on the active region, the light emitting region is configured as a surface emitting light emitting device including the first multilayer reflection mirror and the second multilayer reflection mirror as a vertical resonator, in the feedback mode, the feedback region serves as an optical amplifier having the active region as an optical amplifying layer, and in the monitor mode, the feedback region serves as a light receiving element having the active region as an light absorbing layer. 3. The light emitting apparatus according to claim 2 , wherein the semiconductor layer further includes an oxide layer formed around the semiconductor layer, a non-oxidized region where no oxide layer is formed is continuously formed between the light emitting region and the feedback region, a part of the light generated in the light emitting region propagates to the feedback region through the non-oxidized region as leak light, in the feedback mode, the leak light is reflected and fed back to the light emitting region, and in the monitor mode, the leak light is converted into current. 4. The light emitting apparatus according to claim 1 , wherein a separation region that electrically separates the light emitting region and the feedback region is formed between the light emitting region and the feedback region. 5. The light emitting apparatus according to claim 1 , wherein when the modulation light is generated in the light emitting region, the controller applies the first signal to the light emitting region and applies a forward voltage or no voltage to the feedback region to set the feedback region to the feedback mode, and the controller applies a reverse voltage including zero volt to the feedback region during at least apart of the period in which there is no first signal, to switch the feedback mode to the monitor mode. 6. The light emitting apparatus according to claim 1 , wherein the controller includes a light amount setting unit that generates a target drive current of the light emitting region by using the light amount monitored in the monitor mode, and when the modulation light is generated in the light emitting region, the controller controls the light amount of the modulation light generated in the light emitting region based on the target drive current. 7. The light emitting apparatus according to claim 6 , wherein the controller applies a DC signal or a second signal having a lower frequency than the first signal to the light emitting region in the monitor mode, and the light amount setting unit generates the target drive current by a negative feedback control and causes a hold circuit to hold the generated target drive current. 8. An optical transmitting apparatus comprising: the light emitting apparatus according to claim 1 ; and an optical coupling system in which the modulation light generated in the light emitting region is incident, the light coupling system transmitting the incident modulated light through an optical transmission path. 9. An optical transmitting apparatus comprising: the light emitting apparatus according to claim 2 ; and an optical coupling system in which the modulation light generated in the light emitting region is incident, the light coupling system transmitting the incident modulated light through an optical transmission path. 10. An optical transmitting apparatus comprising: the light emitting apparatus according to claim 3 ; and an optical coupling system in which the modulation light generated in the light emitting region is incident, the light coupling system transmitting the incident modulated light through an optical transmission path. 11. An optical transmitting apparatus comprising: the light emitting apparatus according to claim 4 ; and an optical coupling system in which the modulation light generated in the light emitting region is incident, the light coupling system transmitting the incident modulated light through an optical transmission path. 12. An optical transmitting apparatus comprising: the light emitting apparatus according to claim 5 ; and an optical coupling system in which the modulation light generated in the light emitting region is incident, the light coupling system transmitting the incident modulated light through an optical transmission path. 13. An optical transmitting apparatus comprising: the light emitting apparatus according to claim 6 ; and an optical coupling system in which the modulation light generated in the light emitting region is incident, the light coupling system transmitting the incident modulated light through an optical transmission path. 14. An optical transmitting apparatus comprising: the light emitting apparatus according to claim 7 ; and an optical coupling system in which the modulation light generated in the light emitting region is incident, the light coupling system transmitting the incident modulated light through an optical transmission path.