Atomic clocks and magnetometers with vapor cells having condensation sites in fluid communication with a cavity to hold a vapor condensation away from an optical path

What is claimed is: 1. An atomic clock, comprising: a vapor cell structure including: a bottom transparent plate; a top transparent plate opposing the bottom transparent plate; and a center plate positioned between the top and bottom transparent plates, the center plate defining a central interior aperture to form a cavity upon being attached to the top and bottom transparent plates, the center plate defining a condensation site with the top transparent plate, the condensation site in fluid communication with the cavity and positioned to hold a vapor condensation away from an optical path extending across the top and bottom transparent plates and through the central interior aperture. 2. The atomic clock of claim 1 , wherein the center plate includes a crystal silicon material. 3. The atomic clock of claim 1 , wherein the top and bottom transparent plates each includes a Sodium borosilicate glass material. 4. The atomic clock of claim 1 , further comprising: a heater attached to the bottom transparent plate and away from the optical path. 5. The atomic clock of claim 1 , further comprising: a temperature sensor attached to the bottom transparent plate and away from the optical path. 6. The atomic clock of claim 1 , further comprising: a photodetector attached to the top transparent plate and within the optical path. 7. The atomic clock of claim 1 , further comprising: a laser diode positioned below the bottom transparent plate, the laser diode configured to emit a light ray along the optical path. 8. The atomic clock of claim 1 , wherein the central interior aperture has a top opening and a bottom opening larger than the bottom opening, and the condensation site is positioned adjacent to the top opening. 9. The atomic clock of claim 1 , wherein the condensation site defines an acute angle between the center plate and the top transparent plate. 10. The atomic clock of claim 1 , further comprising: a vapor filling the cavity, the vapor including an alkali material selected from a group consisting of cesium and rubidium. 11. A magnetometer, comprising: a vapor cell structure including: a bottom transparent plate; a top transparent plate opposing the bottom transparent plate; and a center plate positioned between the top and bottom transparent plates, the center plate defining a central interior aperture to form a cavity upon being attached to the top and bottom transparent plates, the center plate defining a condensation site with the top transparent plate, the condensation site in fluid communication with the cavity and positioned to hold a vapor condensation away from an optical path extending across the top and bottom transparent plates and through the central interior aperture. 12. The magnetometer of claim 11 , wherein the center plate includes a crystal silicon material. 13. The magnetometer of claim 11 , wherein the top and bottom transparent plates each includes a Sodium borosilicate glass material. 14. The magnetometer of claim 11 , further comprising: a heater attached to the bottom transparent plate and away from the optical path. 15. The magnetometer of claim 11 , further comprising: a temperature sensor attached to the bottom transparent plate and away from the optical path. 16. The magnetometer of claim 11 , further comprising: a photodetector attached to the top transparent plate and within the optical path. 17. The magnetometer of claim 11 , further comprising: a laser diode positioned below the bottom transparent plate, the laser diode configured to emit a light ray along the optical path. 18. The magnetometer of claim 11 , wherein the central interior aperture has a top opening and a bottom opening larger than the bottom opening, and the condensation site is positioned adjacent to the top opening. 19. The magnetometer of claim 11 , wherein the condensation site defines an acute angle between the center plate and the top transparent plate. 20. The magnetometer of claim 11 , further comprising: a vapor filling the cavity, the vapor including an alkali material selected from a group consisting of cesium and rubidium.