System and method for a cavity magnetometer using a pound-drever-hall detector

What is claimed is: 1. A magnetometer, comprising: a cavity having a first mirror and a second mirror at opposite ends of the cavity; wherein the cavity contains alkali atoms; wherein the cavity is configured to receive circularly polarized pump light to spin polarize the alkali atoms; wherein resonant frequencies of the cavity, containing the spin polarized alkali atoms, change at a rate proportionally with the magnitude of a magnetic field incident upon the cavity; a first detector and demodulator; a second detector and demodulator; a frequency generator configured to generate a first Pound-Drever-Hall (PDH) modulation signal and a second PDH modulation signal; a first probe light modulator, coupled to the first detector and demodulator and the frequency generator; a second probe light modulator coupled to the second detector and demodulator and the frequency generator; a first probe light source, coupled to the first probe light modulator, configured to generate a modulated vertically polarized first probe light; wherein the first probe light modulator is configured to frequency or phase modulate the vertically polarized first probe light with the first PDH modulation signal; a second probe light source, coupled to the second probe light modulator, configured to generate a modulated horizontally polarized second probe light; wherein the second probe light modulator is configured to frequency or phase modulate the horizontally polarized second probe light with the second PDH modulation signal; a quarter wave plate configured to transform the modulated vertically polarized first probe light to modulated right hand circularly polarized first probe light, and to transform the modulated horizontally polarized second probe light to modulated left hand circularly polarized second probe light; wherein the modulated right hand circularly polarized first probe light and the modulated left hand circularly polarized second probe light are incident upon and reflected from the cavity; wherein the quarter wave plate is configured to transform the reflected modulated right hand circularly polarized first probe light to reflected modulated vertically polarized modulated first probe light, and to transform the reflected modulated left hand circularly polarized second probe light pass to reflected modulated horizontally polarized modulated second probe light; wherein the first detector and demodulator is configured to generate a first error signal; wherein the second detector and demodulator is configured to generate a second error signal; wherein the first probe light modulator is configured to adjust a first carrier frequency of the modulated first probe light in response to the first error signal; wherein the second probe light modulator is configured to adjust a second carrier frequency of the modulated second probe light in response to the second error signal; and a differential amplifier, coupled to the first error signal and the second error signal, configured to generate a signal proportional to the amplitude of the magnetic field incident upon the cavity. 2. The magnetometer of claim 1 , further comprising a pump light source configured to generate linearly polarized pump light; and a second quarter wave plate configured to transform the linearly polarized pump light to the circularly polarized pump light. 3. The magnetometer of claim 1 , further comprising: a first polarized beam splitter configured to combine the modulated vertically polarized first probe light and the modulated horizontally polarized second probe light; and a second polarized beam splitter configured to direct the reflected modulated vertically polarized first probe light to the first detector and demodulator, and to direct the reflected modulated horizontally polarized second probe light to the second detector and demodulator. 4. The magnetometer of claim 1 , further comprising an analog to digital converter configured to digitize an output of the analog to digital converter. 5. The magnetometer of claim 1 , wherein a frequency of the first PDH modulation signal is different than a frequency of the second PDH modulation signal. 6. The magnetometer of claim 1 , wherein at least one of the first probe light source and the second probe light source is a laser. 7. The magnetometer of claim 5 , wherein the at least one of the first probe light source, and the second probe light source is a vertical-cavity surface-emitting laser. 8. A magnetometer system, comprising: a magnetometer, comprising: a cavity having a first mirror and a second mirror at opposite ends of the cavity; wherein the cavity contains alkali atoms; wherein the cavity is configured to receive circularly polarized pump light to spin polarize the alkali atoms; wherein resonant frequencies of the cavity, containing the spin polarized alkali atoms, change at a rate proportionally with the magnitude of a magnetic field incident upon the cavity; a first detector and demodulator; a second detector and demodulator; a frequency generator configured to generate a first Pound-Drever-Hall (PDH) modulation signal and a second PDH modulation signal; a first probe light modulator, coupled to the first detector and demodulator and the frequency generator; a second probe light modulator coupled to the second detector and demodulator and the frequency generator; a first probe light source, coupled to the first probe light modulator, configured to generate a modulated vertically polarized first probe light; wherein the first probe light modulator is configured to frequency or phase modulate the vertically polarized first probe light with the first PDH modulation signal; a second probe light source, coupled to the second probe light modulator, configured to generate a modulated horizontally polarized second probe light; wherein the second probe light modulator is configured to frequency or phase modulate the horizontally polarized second probe light with the second PDH modulation signal; a quarter wave plate configured to transform the modulated vertically polarized first probe light to modulated right hand circularly polarized first probe light, and to transform the modulated horizontally polarized second probe light to modulated left hand circularly polarized second probe light; wherein the modulated right hand circularly polarized first probe light and the modulated left hand circularly polarized second probe light are incident upon and reflected from the cavity; wherein the quarter wave plate is configured to transform the reflected modulated right hand circularly polarized first probe light to reflected modulated vertically polarized modulated first probe light, and to transform the reflected modulated left hand circularly polarized second probe light pass to reflected modulated horizontally polarized modulated second probe light; wherein the first detector and demodulator is configured to generate a first error signal; wherein the second detector and demodulator is configured to generate a second error signal; wherein the first probe light modulator is configured to adjust a first carrier frequency of the modulated first probe light in response to the first error signal; wherein the second probe light modulator is configured to adjust a second carrier frequency of the modulated second probe light in response to the second error signal; and a differential amplifier, coupled to the first error signal and the second error signal, configured to generate a signal proportional to the amplitude of the magnetic field incident upon the cavity; and wherein the differential amplifier has an output; and a processing system coupled to the output of the differential amplifier.