Molecular atomic clock with wave propagating rotational spectroscopy cell

What is claimed is: 1. Apparatus comprising: a signal waveguide including: a loop cavity; first and second extensions from the loop cavity; and a dipolar gas in the signal waveguide; a transmit antenna configured to provide electromagnetic energy to the dipolar gas via the first extension; a receive antenna configured to receive an amount of the electromagnetic energy from the dipolar gas via the second extension; and a transceiver including: a signal generator coupled to the transmit antenna; a lock-in amplifier coupled to the receive antenna; a loop filter coupled between the signal generator and the lock-in amplifier; and a modulator coupled between the signal generator and the lock-in amplifier. 2. The apparatus of claim 1 , wherein the loop cavity has a circular planar cross-section. 3. The apparatus of claim 2 , wherein the circular planar cross-section has a middle diameter D M of: D M =(Nλ g )/π, where N is an integer of 1 or greater, and λ g is a wavelength associated with the electromagnetic energy. 4. The apparatus of claim 1 , wherein the loop cavity has a perimeter P of: P=(Nλ g )/π, where N is an integer of 1 or greater, and λ g is a wavelength associated with the electromagnetic energy. 5. Apparatus comprising: a signal waveguide including: a loop cavity; first, second, and third extensions from the loop cavity; and a dipolar gas in the signal waveguide; a first transmit antenna configured to provide electromagnetic energy to the dipolar gas via the first extension; a second transmit antenna configured to provide the electromagnetic energy to the dipolar gas via the second extension; and a receive antenna configured to receive an amount of the electromagnetic energy from the dipolar gas via the third extension. 6. The apparatus of claim 5 , further comprising: a bi-directional coupler including: a first coupler coupled to the first transmit antenna; and a second coupler coupled to the second transmit antenna. 7. The apparatus of claim 6 , wherein the first and second couplers are symmetric relative to a linear axis. 8. The apparatus of claim 6 , wherein: the first coupler is configured to couple a first percentage of the electromagnetic energy to the first transmit antenna; and the second coupler is configured to couple a second percentage of electromagnetic energy to the second transmit antenna, wherein the first percentage is higher than the second percentage. 9. The apparatus of claim 6 , further comprising a transceiver including: a signal generator coupled to the bi-directional coupler; a lock-in amplifier coupled to the receive antenna; a loop filter coupled between the signal generator and the lock-in amplifier; and a modulator coupled between the signal generator and the lock-in amplifier. 10. The apparatus of claim 9 , wherein: a first end of the first coupler is coupled to the signal generator, and a second end of the first coupler is coupled to the first transmit antenna; and a first end of the second coupler is coupled to a reference source, and a second end of the second coupler is coupled to the second transmit antenna. 11. The apparatus of claim 9 , wherein the signal waveguide and the bidirectional coupler are included in a first integrated circuit, and the transceiver is included in a second integrated circuit. 12. Apparatus comprising: a signal waveguide including: a loop cavity; first and second extensions from the loop cavity; a first hermetic window between the first extension and the loop cavity; a second hermetic window between the second extension and the loop cavity; and a dipolar gas contained in the loop cavity; a transmit antenna configured to provide electromagnetic energy to the dipolar gas via the first extension; and a receive antenna configured to receive an amount of the electromagnetic energy from the dipolar gas via the second extension. 13. Apparatus comprising: a signal waveguide including: a loop cavity; first, second, and third extensions from the loop cavity; and a dipolar gas in the signal waveguide; an energy source configured to provide electromagnetic energy to the dipolar gas via the first and second extensions; and an energy detector configured to detect an amount of the electromagnetic energy from the dipolar gas via the third extension. 14. The apparatus of claim 13 , wherein: the energy source includes: a first transmit antenna configured to pass the electromagnetic energy into the first extension; and a second transmit antenna configured to pass the electromagnetic energy into the second extension; and the energy detector includes a receive antenna configured to receive the amount of the electromagnetic energy from the third extension. 15. The apparatus of claim of claim 14 , wherein the energy source further includes a bi-directional coupler including: a first coupler coupled to the first transmit antenna; and a second coupler coupled to the second transmit antenna. 16. The apparatus of claim 15 , wherein: the first coupler includes a first conductor; the second coupler includes a second conductor; and the first and second conductors are symmetric relative to a linear axis. 17. The apparatus of claim 15 , wherein the energy source further includes a transceiver coupled to the bi-directional coupler, the transceiver including: a lock-in amplifier coupled to the receive antenna; a signal generator coupled to the bi-directional coupler; a loop filter coupled between the signal generator and the lock-in amplifier; and a modulator coupled between the signal generator and the lock-in amplifier. 18. The apparatus of claim 13 , wherein the loop cavity has a circular planar cross-section. 19. Apparatus comprising: a signal waveguide including: a loop cavity; first and second extensions from the loop cavity; a first hermetic window between the first extension and the loop cavity; a second hermetic window between the second extension and the loop cavity; and a dipolar gas contained in the loop cavity; an energy source configured to provide electromagnetic energy to the dipolar gas via the first extension; and an energy detector configured to detect an amount of the electromagnetic energy from the dipolar gas via the second extension.