one more Shahriar

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@@ -7407,3 +7407,19 @@ doi = {10.1080/09500340.2016.1148212},
 	     magnitude.},
 }
 
+@article{shahriar17OE_sensitivity_suppression,
+	author = {Joshua Yablon and Zifan Zhou and Nicholas Condon and Devin Hileman and Shih Tseng and Selim Shahriar},
+	journal = {Opt. Express},
+	keywords = {Lasers, Raman; Dispersion; High power lasers; Hole burning; Optical fields; Raman lasers; Single mode lasers; Tunable diode lasers},
+	number = {24},
+	pages = {30327--30335},
+	publisher = {OSA},
+	title = {Demonstration of a highly subluminal laser with suppression of cavity length sensitivity by nearly three orders of magnitude},
+	volume = {25},
+	month = {Nov},
+	year = {2017},
+	url = {http://www.opticsexpress.org/abstract.cfm?URI=oe-25-24-30327},
+	doi = {10.1364/OE.25.030327},
+	abstract = {We have demonstrated a laser in which the frequency shift due to small cavity fluctuations is far less than what would be expected from a conventional laser. The factor of sensitivity suppression is inferred to be equal to the effective group index experienced by the laser, implying that this laser is subluminal. We have observed a suppression factor as high as 663. Such a laser is highly self-stabilized compared to a conventional laser, and is expected to have a far smaller Schawlow-Townes linewidth. As a result, this laser may have potentially significant applications in the fields of high-precision optical metrology and passive frequency stabilization.},
+}
+