Broadband wavelength-swept light source system and apparatus employing the same

What is claimed is: 1. A broadband wavelength-swept light source system comprising: a plurality of gain mediums configured to output a corresponding plurality of lights having different center wavelengths from each other by using stimulated emission and amplification of light; a first light source configured to connect the plurality of gain mediums to each other in parallel and emit the plurality of lights output by the plurality of gain mediums; a wavelength-swept filter configured to sweep wavelengths of the plurality of lights output by the plurality of gain mediums and compensate for spectroscopic optical paths of the plurality of lights; a second light source configured to connect the first light source to the wavelength-swept filter in series and feed the wavelength-swept lights from the wavelength-swept filter back to the plurality of gain mediums; a combiner configured to combine the wavelength-swept lights fed back to the respective plurality of gain mediums and output a combined wavelength-swept light; and a controller configured to control an output magnitude and a wavelength region of the wavelength-swept lights fed back to the respective plurality of gain mediums by controlling at least one of a magnitude of currents respectively applied to the plurality of gain mediums and time points when the currents are respectively applied to the plurality of gain mediums, wherein the controller is configured to control the currents respectively applied to the plurality of gain mediums such that the wavelengths of the plurality of lights are swept in sequence through the plurality of gain mediums, the sequence being a sequence in which a first wavelength-swept light output from a first gain medium among the plurality of gain mediums is only output during a first time period and a second wavelength-swept light output from a second gain medium among the plurality of gain mediums is only output during a second time period adjacent to the first time period. 2. The broadband wavelength-swept light source system of claim 1 , wherein the wavelength-swept filter comprises: a spectroscope configured to perform a spectral analysis of the plurality of lights output by the respective plurality of gain mediums according to wavelengths and thereby output spectral analysis light; a relay lens portion configured to relay and focus the spectral analysis light; a polygon mirror configured to reflect the spectral analysis light focused by the relay lens portion; and a plurality of reflective mirrors configured to reflect the spectral analysis light reflected by the polygon mirror back to the polygon mirror to thereby generate the wavelength-swept lights. 3. The broadband wavelength-swept light source system of claim 2 , wherein the plurality of reflective mirrors is disposed to compensate for the spectroscopic optical paths. 4. The broadband wavelength-swept light source system of claim 3 , wherein distances of the plurality of reflective mirrors from the polygon mirror are configured to be adjusted to compensate for optical path length differences due to the spectroscopic optical paths and to adjust oscillation orders of the wavelength-swept lights on a time axis. 5. The broadband wavelength-swept light source system of claim 2 , wherein the spectroscope comprises a reflection-type diffraction grating. 6. The broadband wavelength-swept light source system of claim 1 , further comprising a delayer configured to adjust an optical path length on a resonance path of light generated by at least one of the plurality of gain mediums. 7. The broadband wavelength-swept light source system of claim 1 , wherein the controller is configured to synchronize a sweeping rate of the wavelength-swept filter with the currents respectively applied to the plurality of gain mediums. 8. The broadband wavelength-swept light source system of claim 1 , further comprising: an optical signal extractor configured to extract an optical signal having a predetermined wavelength region from the combined wavelength-swept light; and a synchronization signal generator configured to generate, based on the extracted optical signal, a synchronization signal which synchronizes an operation of performing the stimulated emission and amplification of light of the plurality of gain mediums with an operation of sweeping a wavelength of the wavelength-swept filter, wherein the controller is configured to generate the currents to be respectively applied to the plurality of gain mediums and a control signal to control the wavelength-swept filter based on the synchronization signal. 9. The broadband wavelength-swept light source system of claim 2 , further comprising: an optical signal extractor configured to extract an optical signal having a predetermined wavelength region from the combined wavelength-swept light; and a synchronization signal generator configured to generate, based on the extracted optical signal, a synchronization signal which synchronizes an operation of performing the stimulated emission and amplification of light of the plurality of gain mediums with an operation of sweeping a wavelength of the wavelength-swept filter, wherein the controller is configured to generate the currents to be respectively applied to the plurality of gain mediums and a control signal to control the wavelength-swept filter based on the synchronization signal. 10. The broadband wavelength-swept light source system of claim 1 , further comprising: an optical signal extractor configured to extract an optical signal having a predetermined wavelength region from the combined wavelength-swept light; and a synchronization signal generator configured to generate, based on the extracted optical signal, a synchronization signal which synchronizes an operation of performing the stimulated emission and amplification of light of the plurality of gain mediums with an operation of sweeping a wavelength of the wavelength-swept filter, wherein the controller is configured to generate the currents to be respectively applied to the plurality of gain mediums and a control signal to control the wavelength-swept filter based on the synchronization signal. 11. An optical coherence tomography apparatus comprising: a broadband wavelength-swept light source system, comprising: a plurality of gain mediums configured to output a corresponding plurality of lights having different center wavelengths from each other by using stimulated emission and amplification of light; a first light source configured to connect the plurality of gain mediums to each other in parallel and emit the plurality of lights output by the plurality of gain mediums; a wavelength-swept filter configured to sweep wavelengths of the plurality of lights output by the plurality of gain mediums and compensate for spectroscopic optical paths of the plurality of lights; a second light source configured to connect the first light source to the wavelength-swept filter in series and feed the wavelength-swept lights from the wavelength-swept filter back to the plurality of gain mediums; a combiner configured to combine the wavelength-swept lights fed back to the respective plurality of gain mediums and output a combined wavelength-swept light; and a controller configured to control an output magnitude and a wavelength region of the wavelength-swept lights fed back to the respective plurality of gain mediums by controlling at least one of a magnitude of currents respectively applied to the plurality of gain mediums and time points when the currents are respectively applied to the plurality of gain mediums, wherein the controller is configured to control the currents respectively applied to the plurality o