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The method and apparatus in one embodiment may have: a gyro housing containing a bias field; a bias field that generates a stable axial magnetic field; Xenon or other gas contained within at least a portion of the axial magnetic field, Xenon or other gas nuclear spins precessing at a constant angula

The method and apparatus in one embodiment may have: a gyro housing containing a bias field; a bias field that generates a stable axial magnetic field; Xenon or other gas contained within at least a portion of the axial magnetic field, Xenon or other gas nuclear spins precessing at a constant angular rate with respect to the gyro housing in response to the axial magnetic field; wherein reversing a polarity of the bias field reverses a polarity of the magnetic field and a polarity of the precession of the Xenon or other gas nuclear spin, and wherein a reversing of the polarity of the gyro scalefactor thereby results without reversing a polarity of the gyro bias.

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We claim: 1. An apparatus, comprising: a gyro housing containing a bias field coil that generates a stable axial magnetic field; Xenon contained within at least a portion of the axial magnetic field, Xenon nuclear spins precessing at a constant angular rate with respect to the gyro housing in respo

We claim: 1. An apparatus, comprising: a gyro housing containing a bias field coil that generates a stable axial magnetic field; Xenon contained within at least a portion of the axial magnetic field, Xenon nuclear spins precessing at a constant angular rate with respect to the gyro housing in response to the axial magnetic field; wherein reversing a polarity of a current in the bias field coil reverses a polarity of the magnetic field and a polarity of the precession of the Xenon nuclear spin, and wherein a reversing of the polarity of the gyro scalefactor thereby results without reversing a polarity of the gyro bias, and wherein an apparent change in frequency of precession is a measure of an angular rate applied to the gyro housing. 2. The apparatus of claim 1, wherein a fixed current applied to the bias field coil generates a stable axial magnetic field. 3. The apparatus of claim 1, wherein the magnetic field causes the Xenon nuclear spins to precess at a constant angular rate with respect to the gyro housing. 4. The apparatus of claim 3, wherein a frequency of the angular rate is a Larmor frequency. 5. The apparatus of claim 4, wherein the Larmor frequency increases or decreases as a function of a relative polarity of the angular rotation rate of the housing about the axis of the magnetic field. 6. An apparatus, comprising: a nuclear magnetic resonance gyro having at least two sensors in a magnetic field; the two sensors having sequentially alternating scale factor polarity, and the two sensors having respective outputs with respective output signals; a Kalman filter having two inputs respectively coupled to the respective outputs of the two sensors, the two inputs receiving the two output signals of the two sensors; wherein the Kalman filter derives a respective bias of each sensor and removes the respective bias as an error source in an estimate of a respective true input signal to the sensors, and wherein the scale factor polarity of the nuclear magnetic resonance gyro is determined by a polarity of the magnetic field that induces Larmor precession of a nuclear spin of Xenon; and wherein by reversing the polarity of the magnetic field the polarity of the Larmor precession is reversed; and wherein an apparent change in the Larmor precession frequency is a measure of an angular rate applied to the gyro housing. 7. The apparatus of claim 6, wherein depending on the polarity of the Larmor precession the applied angular rate either increases or decreases an apparent precession frequency observed by a case fixed optical detector. 8. The apparatus of claim 7, wherein, to a degree that the gyro bias remains unchanged in polarity and magnitude following a reversal in the magnetic field, the gyro bias is derived and removed from a measured angular rate. 9. The apparatus of claim 6, wherein the apparatus further comprises a pair of NMR sensors that enable self-calibrating of the gyro under dynamic operating conditions. 10. The apparatus of claim 6, wherein the apparatus further comprises two sensors per axis to reduce an angle random walk by a square of two and to provide redundancy. 11. The apparatus of claim 6, wherein the apparatus further comprises four gyros arranged in a tetrahedral configuration, wherein individual gyros are sequentially reversed in polarity while the remaining three gyros maintain continuous operation of the apparatus. 12. The method, comprising: applying a fixed current to a bias field coil of gyro to generate a stable axial magnetic field which contains Xenon; and effecting, via the magnetic field, Xenon nuclear spins to precess at a constant angular rate with respect to a housing of the gyro resulting in a Larmor frequency, the Larmor frequency increasing or decreasing depending on a relative polarity of angular rotation rate of the housing about an axis of the magnetic field, reversing a polarity of a current in the coil reversing a polarity of the magnetic field and the polarity of the precession of the Xenon nuclear spin, an apparent change in the Larmor frequency being a measure of angular rate applied to the housing of the gyro. 13. The method according to claim 12, wherein the reversing the polarity of the current in the coil which reverses the polarity of the magnetic field and the polarity of the precession of the Xenon nuclear spin, reverses a polarity of the gym scalefactor without reversing the polarity of the gyro bias. 14. An apparatus, comprising: a gyro housing containing a means for establishing a stable axial field; a predetermined material contained within at least a portion of the axial magnetic field, nuclear spins of the predetermined material processing at a constant angular rate with respect to the gyro housing in response to the axial magnetic field; wherein one of reversing a polarity of a current in the bias field coil reverses a polarity of the magnetic field a polarity of the precession of the nuclear spin of the predetermined material, or directly reversing the polarity of the magnetic field to reverse a polarity of the precession of the nuclear spin of the predetermined material, and wherein a reversing of the polarity of the gyro scalefactor thereby results without reversing a polarity of the gyro bias and wherein an apparent change in a precession frequency of the precession of the nuclear spin is a measure of an angular rate applied to the gyro housing. 15. The apparatus of claim 14, wherein the apparatus further comprises a bias field coil, and wherein a fixed current is applied to the bias field coil to generate a stable axial magnetic field. 16. The apparatus of claim 14, wherein the magnetic field causes the nuclear spins of the predetermined material to precess at a constant angular rate with respect to the gyro housing. 17. The apparatus of claim 16, wherein a frequency of the angular rate is a Larmor frequency. 18. The apparatus of claim 17, wherein the Larmor frequency increases or decreases as a function of a relative polarity of the angular rotation rate of the housing about the axis of the magnetic field. 19. The apparatus of claim 14, wherein predetermined material is Xenon. 20. The apparatus of claim 14, wherein the means for generating a stable axial magnetic field is a bias field coil.