Liquid lens with reduced chromatic aberration

The invention claimed is: 1. A liquid lens comprising: a chamber; and liquids consisting essential of a first liquid and a second liquid, both the first liquid and the second liquid being positioned in the chamber with a meniscus formed at an interface of the first liquid and the second liquid; wherein the meniscus is tilted at a non-zero angle that causes an image plane to tilt at a non-zero optical tilt angle relative to an optical object plane; wherein the first liquid has a first refractive index and a first Abbe number, and the second liquid has a second refractive index and a second Abbe number; wherein an absolute value of a difference between the first refractive index and the second refractive index is at least 0.13; wherein an absolute value of a difference between the first Abbe number and the second Abbe number is no more than 22; and wherein a chromatic aberration that the liquid lens produces is less than a diffraction-limited resolution that the liquid lens produces over at least a portion of a full field of view and a wavelength range of 0.4861 microns to 0.6563 microns when the optical tilt angle is 0.484 degrees relative to the optical object plane. 2. The liquid lens of claim 1 wherein the absolute value of the difference between the first refractive index and the second refractive index is at least 0.15. 3. The liquid lens of claim 1 wherein the absolute value of the difference between the first Abbe number and the second Abbe number is no more than 17. 4. The liquid lens of claim 1 wherein the absolute value of the difference between the first Abbe number and the second Abbe number is no more than 15. 5. The liquid lens of claim 1 wherein one of the first liquid or the second liquid is a polar liquid and the other one of the first liquid or the second liquid is a non-polar liquid. 6. A liquid lens comprising: a chamber; and liquids comprising a first liquid, a second liquid, and a third liquid positioned in the chamber, with a first meniscus formed at an interface of the first liquid and the second liquid and a second meniscus formed at an interface of the second liquid and the third liquid; wherein the first meniscus and the second meniscus are tilted at non-zero angles that cause an image plane to tilt at a non-zero optical tilt angle relative to an optical object plane; and wherein the chromatic aberration that the liquid lens produces is less than the diffraction-limited resolution of the liquid lens over at least a portion of the full field of view and the wavelength range of 0.4861 microns to 0.6563 microns when the optical tilt angle is 0.6 degrees relative to the optical object plane. 7. The liquid lens of claim 6 wherein; the first liquid, the second liquid, and the third liquid are all different. 8. The liquid lens of claim 7 wherein the chromatic aberration is less than the diffraction-limited resolution over at least a majority of the full field of view of the liquid lens. 9. The liquid lens of claim 7 wherein the chromatic aberration is less than the diffraction-limited resolution over at least 75% of the full field of view of the liquid lens. 10. The liquid lens of claim 7 wherein the chromatic aberration is less than the diffraction-limited resolution over the full field of view of the liquid lens. 11. The liquid lens of claim 7 wherein (a) the first liquid and the third liquid are polar liquids and the second liquid is a non-polar liquid; or (b) the first liquid and the third liquid are non-polar liquids and the second liquid is a polar liquid. 12. The liquid lens of claim 7 wherein a tilt of the first meniscus and a tilt of the second meniscus are capable of being independently controlled. 13. The liquid lens of claim 6 , wherein the first liquid, the second liquid, and the third liquid all have an index of refraction and an Abbe number; the index of refraction of the second liquid is greater than (i) the index of refraction of the first liquid and (ii) the index of refraction of the third liquid; and the Abbe number of the second liquid is less than (i) the Abbe number of the first liquid and (ii) the Abbe number of the third liquid. 14. A liquid lens comprising: a chamber; a transparent plate within the chamber dividing the chamber into a first sub-chamber and a second sub-chamber; a first liquid and a second liquid within the first sub-chamber with a meniscus formed at an interface of the first liquid and the second liquid; and a third liquid and a fourth liquid within the second sub-chamber with another meniscus formed at another interface of the third liquid and the fourth liquid; wherein the meniscuses are tilted at non-zero angles that cause an image plane to tilt at a non-zero optical tilt angle relative to an optical object plane; and wherein a chromatic aberration that the liquid lens produces is less than a diffraction-limited resolution that the liquid lens produces over at least a portion of a full field of view and a wavelength range of 0.4861 microns to 0.6563 microns when the optical tilt angle is 0.484 degrees relative to the optical object plane. 15. The liquid lens of claim 14 wherein the chromatic aberration is less than the diffraction-limited resolution over at least a majority of the full field of view of the liquid, lens. 16. The liquid lens of claim 14 wherein the chromatic aberration is less than the diffraction-limited resolution over at least 75% of the full field of view of the liquid lens. 17. The liquid lens of claim 14 wherein an absolute value of a difference between a first refractive index of the first liquid and a second refractive index of the second liquid is at least 0.14. 18. The liquid lens of claim 14 wherein one of the first liquid or the second liquid is a polar liquid and the other one of the first liquid or the second liquid is a non-polar liquid. 19. The liquid lens of claim 14 wherein: the chromatic aberration that the liquid lens produces is less than the diffraction-limited resolution that the liquid lens produces over at least a portion of the full field of view and the wavelength range of 0.4861 microns to 0.6563 microns when the optical tilt angle is 0.6 degrees relative to the optical object plane.