New article by grad student Tom Smith and Dr. Shih
“Turbulence-Free Double-slit Interferometer”
Thomas A. Smith and Yanhua Shih
Phys. Rev. Lett. 120, 063606 – Published 8 February 2018
URL: https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.120.063606
Abstract: Optical turbulence can be detrimental for optical observations. For instance, atmospheric turbulence may reduce the visibility or completely blur out the interference produced by an interferometer in open air. However, a simple two-photon interference theory based on Einstein’s granularity picture of light makes a turbulence-free interferometer possible; i.e., any refraction index, length, or phase variations along the optical paths of the interferometer do not have any effect on its interference. Applying this mechanism, the reported experiment demonstrates a two-photon double-slit interference that is insensitive to atmospheric turbulence. The turbulence-free mechanism and especially the turbulence-free interferometer would be helpful in optical observations that require high sensitivity and stability such as for gravitational-wave detection.
Please see the UMBC news release for more details.
Please also see the article in Space.com.
Thomas A. Smith and Yanhua Shih
Phys. Rev. Lett. 120, 063606 – Published 8 February 2018
URL: https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.120.063606
Abstract: Optical turbulence can be detrimental for optical observations. For instance, atmospheric turbulence may reduce the visibility or completely blur out the interference produced by an interferometer in open air. However, a simple two-photon interference theory based on Einstein’s granularity picture of light makes a turbulence-free interferometer possible; i.e., any refraction index, length, or phase variations along the optical paths of the interferometer do not have any effect on its interference. Applying this mechanism, the reported experiment demonstrates a two-photon double-slit interference that is insensitive to atmospheric turbulence. The turbulence-free mechanism and especially the turbulence-free interferometer would be helpful in optical observations that require high sensitivity and stability such as for gravitational-wave detection.
Please see the UMBC news release for more details.
Please also see the article in Space.com.
Posted: February 13, 2018, 1:19 PM