Your search keyword '"Yablon, Joshua"' showing total 14 results

1. Modeling and analysis of an ultra-stable subluminal laser

Author

Zhou, Zifan, Yablon, Joshua, Zhou, Minchuan, Wang, Ye, Heifetz, Alexander, and Shahriar, Selim M.

Subjects

Physics - Optics

Abstract

We describe a subluminal laser which is extremely stable against perturbations. It makes use of a composite gain spectrum consisting of a broad background along with a narrow peak. The stability of the laser, defined as the change in frequency as a function of a change in the cavity length, is enhanced by a factor given by the group index, which can be as high as 105 for experimentally realizable parameters. We also show that the fundamental linewidth of such a laser is expected to be smaller by the same factor. We first present an analysis where the gain profile is modeled as a superposition of two Lorentzian functions. We then present a numerical study based on a physical scheme for realizing the composite gain profile. In this scheme, the broad gain is produced by a high pressure buffer-gas loaded cell of rubidium vapor. The narrow gain is produced by using a Raman pump in a second rubidium vapor cell, where optical pumping is used to produce a Raman population inversion. We show close agreement between the idealized model and the explicit model. A subluminal laser of this type may prove to be useful for many applications., Comment: 37 pages, 17 figures

Published

2015

2. Modeling and analysis of an ultra-stable subluminal laser

Author

Zhou, Zifan, Yablon, Joshua, Zhou, Minchuan, Wang, Ye, Heifetz, Alexander, and Shahriar, M.S.

Published

2016

3. Superluminal and Subluminal Lasers for Precision Metrology

Author

Yablon, Joshua

Published

2017

4. Demonstration of a highly subluminal laser with suppression of cavity length sensitivity by nearly three orders of magnitude

Author

Yablon, Joshua, primary, Zhou, Zifan, additional, Condon, Nicholas, additional, Hileman, Devin, additional, Tseng, Shih, additional, and Shahriar, Selim, additional

Published

2017

5. High-depth-resolution range imaging with multiple-wavelength superheterodyne interferometry using 1550-nm lasers

Author

Li, Fengqiang, primary, Yablon, Joshua, additional, Velten, Andreas, additional, Gupta, Mohit, additional, and Cossairt, Oliver, additional

Published

2017

6. Demonstration of a Self-Stabilized Highly Subluminal Laser with a Factor of 400 Suppression in Sensitivity to Fluctuations

Author

Yablon, Joshua, primary, Zhou, Zifan, additional, Condon, Nicholas, additional, Hileman, Devin, additional, Tseng, Shih, additional, and Shahriar, Selim, additional

Published

2017

7. Theoretical modeling and experimental demonstration of Raman probe induced spectral dip for realizing a superluminal laser

Author

Yablon, Joshua, primary, Zhou, Zifan, additional, Zhou, Minchuan, additional, Wang, Ye, additional, Tseng, S., additional, and Shahriar, M. S., additional

Published

2016

8. Realization of a superluminal Raman laser using adjacent transitions in two isotopes of Rb

Author

Zhou, Zifan, primary, Yablon, Joshua, additional, and Shahriar, M.S., additional

Published

2016

9. Experimental Demonstration and Theoretical Modeling of Raman Probe Induced Spectral Dip for Realizing a Superluminal Laser

Author

Yablon, Joshua, primary, Zhou, Zifan, additional, Zhou, Minchuan, additional, Wang, Ye, additional, and Shahriar, M.S., additional

Published

2016

10. Effect of multiorder harmonics in a double-Raman pumped gain medium for a superluminal laser

Author

Wang, Ye, primary, Zhou, Zifan, additional, Yablon, Joshua, additional, and Shahriar, Selim, additional

Published

2015

11. Observation of Raman Resonance of a Probe in a Rb Cell Added to an Ethane-Rb Laser for Realizing a Superluminal Laser

Author

Yablon, Joshua, primary, Tseng, Shih, additional, Zhou, Zifan, additional, and Shahriar, Selim, additional

Published

2013

12. Gravitational Wave Detection with Superluminal Laser in the Adiabatic Following Limit

Author

Yablon, Joshua, primary, Zhou, Zifan, additional, Tseng, Shih, additional, Scheuer, Jacob, additional, and Shahriar, Selim, additional

Published

2013

13. Effect of multiorder harmonics in a double-Raman pumped gain medium for a superluminal laser.

Author

Ye Wang, Zifan Zhou, Yablon, Joshua, and Shahriar, Selim

Subjects

ELECTRICAL harmonics, RAMAN spectroscopy, INTERFERENCE (Telecommunication), DISPERSION (Chemistry), ARBITRARY constants

Abstract

Use of a double-Raman pump applied to a three-level system is a convenient method for generating negative dispersion. When the gain at the center is high enough, such a system can be used to realize a superluminal laser, which in turn can be used to enhance the sensitivity of rotation sensors. For this condition, it is often necessary to apply strong pumps that are closely spaced in frequency. Accurate modeling of this system thus requires taking into account interference between the two pumps. We present such an analysis where we allow for an arbitrary number of harmonics that result from this interference, and investigate the behavior of the gain profile under a wide range of conditions. We also describe an experimental study of double-Raman gain in a Rb vapor cell, and find close agreement between the experimental result and the theoretical model. The technique reported here can be used in developing a quantitative model of a superluminal laser under wide-ranging conditions. [ABSTRACT FROM AUTHOR]

Published

2015

14. Experimental demonstration and theoretical modeling of Raman probe induced spectral dip for realizing a superluminal laser.

Author

Yablon, Joshua, Zhou, Zifan, Zhou, Minchuan, Wang, Ye, and Shahriar, M.S.

Published

2016