Planar reflective ring

What is claimed is: 1. A gas detector system comprising: at least one emitter configured to emit radiation in a beam path; at least one detector configured to receive at least a portion of the emitted radiation; a ring reflector configured to direct the emitted radiation around the ring reflector toward the at least one detector, wherein the ring reflector comprises at least a portion of a spheroid shape, and wherein the ring reflector is configured to allow gas to flow through at least a portion of the beam path; one or more reflectors configured to direct the beam path toward the at least one detector; and a processing circuit coupled to the one or more detectors configured to process an output from the one or more detectors. 2. The gas detector system of claim 1 , further comprising one or more reflectors configured to direct the beam path from the emitter toward a wall of the ring reflector. 3. The gas detector system of claim 1 , wherein the one or ore reflectors comprises a right angle prism. 4. The gas detector system of claim 1 , wherein the one or more reflectors comprises two parallel mirrors. 5. The gas detector system of claim 1 , wherein the emitted radiation generates at least two focused spots at the at least one detector. 6. The gas detector system of claim 5 , wherein a first focused spot is used for a sample signal and a second focused spot is used for a reference signal. 7. The gas detector system of claim 1 , wherein the emitter and the detector are oriented side by side in the same plane. 8. The gas detector system of claim 1 , wherein the emitter and the detector are oriented opposite one another within the ring reflector in different planes. 9. The gas detector system of claim 1 , further comprising at least one filter located such that the emitted radiation passes through the filter before reaching the detector. 10. The gas detector system of claim 1 , further comprising: a second emitter configured to emit radiation in a second beam path; and a second detector configured to receive at least a portion of the emitted radiation in the second beam path, wherein the second beam path is oriented at an angle to the first beam path. 11. The gas detector system of claim 1 , further comprising a plug configured to minimize gas flow through dead space within the ring reflector. 12. The gas detector system of claim 1 , wherein the ring reflector comprises a diameter of between approximately 10 and 20 millimeters. 13. The gas detector system of claim 1 , wherein the ring reflector comprises a width of between approximately 5 and 10 millimeters. 14. A method for gas detection comprising: generating a beam path of emitted radiation by an emitter; directing the beam path of emitted radiation within a ring reflector through a gas sample; reflecting the beam path of emitted radiation around the ring reflector, wherein the ring reflector comprises at least a portion of a spheroid shape; directing the beam path to a detector via one or more reflectors; receiving the beam path of emitted radiation by the detector; and determining the at least one gas concentration of the gas sample based on the received beam path of emitted radiation. 15. The method of claim 14 , further comprising filtering the beam path via a filter located between the emitter and the detector. 16. The method of claim 14 , further comprising receiving two focused spots from the beam path by the detector, wherein the two focused spots are generated by astigmatism aberration within the ring reflector. 17. The method of claim 14 , wherein a first focused spot is used to determine a sample signal and wherein a second focused spot is used to determine a reference signal. 18. A gas detector system comprising: at least one emitter configured to emit radiation in a beam path; at least one detector configured to receive at least a portion of the emitted radiation, wherein the emitted radiation generates at least two focused spots at the at least one detector; a ring reflector configured to direct the emitted radiation around the ring reflector toward the at least one detector, wherein the ring reflector comprises at least a portion of a spheroid shape, and wherein the ring reflector is configured to allow gas to flow through at least a portion of the beam path; one or more reflectors configured to direct the beam path toward the at least one detector; and a processing circuit coupled to the one or more detector configured to process an output from the one or more detectors. 19. The gas detector system of claim 18 , wherein the path-length of the beam path is at least approximately 20 millimeters.