Signal extraction systems and methods

What is claimed is: 1. A system, comprising: a swept source laser configured to output light having a frequency which is swept over time; a beamsplitter configured to receive the light and to supply a first portion of the light to a reference path and a second portion of the light to a sample path; a beam combiner having a first input, a second input, and an output, wherein the first input is configured to receive first portion of the light from the reference path; optics disposed in the sample path and configured to direct the second portion of the light to a sample and to direct backscattered light from the object to the second input of the beam combiner; a photo detection device configured to receive from the beam combiner the first portion of the light from the reference path and the backscattered light from the sample and to output an electrical signal produced by interference between a first optical field of the first portion of the light from the reference path and a second optical field of the backscattered light from the sample, wherein the electrical signal comprises a first frequency component at or below a set frequency and a second frequency component above the set frequency; and a signal processor comprising: an analog-to-digital conversion subsystem comprising at least a first analog-to-digital converter (ADC); a frequency down shifter; and a distribution element configured to receive the electrical signal output by the photo detection device, to send the first frequency component to the analog-to-digital conversion subsystem, and to send the second frequency component to the frequency down shifter, wherein the frequency down shifter is configured to down shift the second frequency component to a downshifted frequency at or below the set frequency to form a down shifted second frequency component, and to send the down shifted second frequency component to the analog-to-digital conversion subsystem. 2. The system of claim 1 , wherein the first ADC has a maximum conversion frequency and the set frequency is less than or equal to the maximum conversion frequency. 3. The system of claim 1 , wherein the distribution element comprises a switch having a first output and a second output, wherein the distribution element is configured to: switch the electrical signal output by the photo detection device to the first output to pass the first frequency component to the first ADC during a first scan of the sample; and switch the electrical signal output by the photo detection device to the second output to pass the second frequency component to the frequency down shifter during a second scan of the sample. 4. The system of claim 3 , wherein the signal processor further comprises a bandpass filter or a highpass filter coupled between the second output of the switch and an input of the frequency down shifter. 5. The system of claim 4 , wherein the signal processor further comprises a second switch coupled to the first output of the switch and an output of the frequency down shifter, the second switch being configured to send an output of the second switch to the first ADC. 6. The system of claim 1 , wherein the distribution element comprises a splitter configured to substantially simultaneously send the electrical signal output by the photo detection device to the first ADC and to the frequency down shifter. 7. The system of claim 6 , further comprising a bandpass filter or a lowpass filter coupled between an output of the splitter and an input of the first ADC. 8. The system of claim 6 , further comprising a bandpass filter or a highpass filter coupled between an output of the splitter and an input of the frequency down shifter. 9. The system of claim 6 , wherein: the analog-to-digital conversion subsystem further comprises a second ADC; and the down shifted second frequency component is sent is to the second ADC. 10. The system of claim 1 , wherein the frequency down shifter comprises: a local oscillator configured to generate a local oscillator signal; a mixer having a first input configured to receive the second frequency component and a second input configured to receive the local oscillator signal, wherein the mixer is configured to mix the second frequency component and the local oscillator signal to form an intermediate output signal; and a lowpass filter or a bandpass filter coupled to an output of the mixer and configured to filter the intermediate output signal to produce the down shifted second frequency component. 11. A system, comprising: a plurality of filters; a plurality of analog-to-digital converters (ADCs); a plurality of frequency down shifters; and a distribution element comprising an radio frequency (RF) splitter having an input configured to receive an electrical signal output by a photo detection device and having a plurality of outputs further configured to substantially simultaneously send the electrical signal to each of the plurality of filters, wherein at least a first filter among the plurality of filters comprises a lowpass filter or a bandpass filter coupled between a first output of the RF splitter and an input of a first one of the ADCs, wherein at least a second filter and a third filter among the plurality of filters each comprise a highpass filter or a bandpass filter, each of the second filter and third filter being coupled between a separate output of the RF splitter and a corresponding one of the frequency down shifter, and wherein each of the frequency down shifters has an output coupled to a corresponding one of the ADCs. 12. The system of claim 11 , wherein each of the frequency down shifters is configured to shift a corresponding frequency component of the electrical signal. 13. The system of claim 11 , wherein each of the filters is configured to pass a different frequency component of the electrical signal. 14. The system of claim 11 , wherein each of the frequency down shifters comprises: a local oscillator configured to generate a local oscillator signal; a mixer having a first input configured to receive an input signal to the frequency down shifter and a second input configured to receive the local oscillator signal, wherein the mixer is configured to mix the input signal and the local oscillator signal to form an intermediate output signal; and a lowpass filter or a bandpass filter coupled to an output of the mixer and configured to filter the intermediate output signal. 15. The system of claim 11 , further comprising a low noise amplifier having an input configured to receive the electrical signal output by the photo detection device, to amplify the electrical signal output by the photo detection device, and to supply the amplified electrical signal output by the photo detection device to the input of the RF splitter. 16. A system, comprising: a plurality of filters; an analog-to-digital converter (ADC); a plurality of frequency down shifters; and a distribution element, comprising: a first switch having an input configured to receive an electrical signal output by a photo detection device, and further having a plurality of outputs each connected to a corresponding one of the plurality of filters, wherein the first switch is configured to sequentially send the electrical signal via the plurality of outputs to each of the plurality of filters; and a second switch having a plurality of inputs, and further having an output coupled to the ADC, wherein at least one of the filters comprises a lowpass filter or a bandpass filter coupled between a first one of the outputs of the first switch and a first one o