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@@ -6307,3 +6307,141 @@ language={English}
 	   results of preliminary experimental studies are
 	   presented.}
 }
+
+@article{Ying2015OC_wlc_experiment,
+	title = "White light cavity via modification of linear and
+	nonlinear dispersion in an N-type atomic system ",
+	journal = "Optics Communications ",
+	volume = "342",
+	number = "",
+	pages = "189 - 192",
+	year = "2015",
+	note = "",
+	issn = "0030-4018",
+	doi = "10.1016/j.optcom.2014.12.080",
+	url = "http://www.sciencedirect.com/science/article/pii/S0030401814012449",
+	author = "Kang Ying and Yueping Niu and Dijun Chen and Haiwen Cai
+	and Ronghui Qu and Shangqing Gong",
+	keywords = "White light cavity",
+	keywords = "Electromagnetically induced transparency",
+	keywords = "Linear and nonlinear dispersion ",
+	abstract = "Abstract We have experimentally realized a white light
+	cavity (WLC) in a wide range of the cavity input field's intensity
+	in an N-type atomic system. As the linear and nonlinear dispersion
+	can be tuned conveniently, for different cavity input field's
+	intensity, the condition of WLC can be satisfied. In our
+	experiment, the WLC with broad linewidth of about 100 MHz
+	can be achieved with the cavity input field's intensity from a few
+	μ W to dozens of mW. This can be applied in the gravitation wave
+	detectors, pulse shaping, nonlinear spectroscopy, atom and ion
+	cooling, etc. "
+}
+
+@article{Peng2014OC_wlc_with_dark_resonances,
+	title = "Tunable white light cavity induced by interacting dark
+	resonances ",
+	journal = "Optics Communications ",
+	volume = "313",
+	number = "",
+	pages = "416 - 420",
+	year = "2014",
+	note = "",
+	issn = "0030-4018",
+	doi = "10.1016/j.optcom.2013.09.063",
+	url = "http://www.sciencedirect.com/science/article/pii/S0030401813008845",
+	author = "Yandong Peng and Yueping Niu and Aihong Yang and Dehua Li
+	and Min Liang and Shangqing Gong",
+	keywords = "Electromagnetically induced transparency",
+	keywords = "White light cavity",
+	keywords = "Interacting dark resonances ",
+	abstract = "Abstract We propose a scheme for a broadband optical
+	cavity induced by interacting dark resonances in a Λ -type
+	four-level atomic system. The interacting dark resonances leads to
+	constructive interference for the nonlinear dispersion and
+	destructive interference for the absorption between two
+	electromagnetically induced transparency windows. The enhanced
+	nonlinear anomalous dispersion is used to broaden the cavity
+	linewidth. The simulation results show that the cavity linewidth
+	could be widened more than one order of magnitude broader than an
+	empty-cavity linewidth. Moreover, the cavity linewidth depends on
+	the intensities and the detunings of coupling fields. "
+}
+
+
+
+@article{shahriar2007prl_wlc_demo,
+	title = {Demonstration of a Tunable-Bandwidth White-Light
+	  Interferometer Using Anomalous Dispersion in Atomic Vapor},
+	author = {Pati, G. S. and Salit, M. and Salit, K. and Shahriar,
+	   M. S.},
+	journal = {Phys. Rev. Lett.},
+	volume = {99},
+	issue = {13},
+	pages = {133601},
+	numpages = {4},
+	year = {2007},
+	month = {Sep},
+	publisher = {American Physical Society},
+	doi = {10.1103/PhysRevLett.99.133601},
+	url = {http://link.aps.org/doi/10.1103/PhysRevLett.99.133601}
+}
+
+@article{MinXiao2008pra_wlc_eit,
+	title = {White-light cavity with competing linear and nonlinear
+	  dispersions},
+	author = {Wu, Haibin and Xiao, Min},
+	journal = {Phys. Rev. A},
+	volume = {77},
+	issue = {3},
+	pages = {031801},
+	numpages = {4},
+	year = {2008},
+	month = {Mar},
+	publisher = {American Physical Society},
+	doi = {10.1103/PhysRevA.77.031801},
+	url = {http://link.aps.org/doi/10.1103/PhysRevA.77.031801}
+}
+
+@article{shahriar2014_wlc_brullouin,
+	author={Yum, H.N. and Scheuer, J. and Salit, M. and Hemmer, P.R.
+	 and Shahriar, M.S.},
+	journal={Lightwave Technology, Journal of},
+	title={Demonstration of White Light Cavity Effect Using Stimulated
+	Brillouin Scattering in a Fiber Loop},
+	archivePrefix = {arXiv},
+	eprint = {1307.5272},
+	year={2013},
+	volume={31},
+	number={23},
+	pages={3865-3872},
+	abstract={A passive white light cavity (WLC) based on a fiber
+	   resonator can be used for high-bandwidth optical data buffering.
+	   Here, we report on experimental studies of such a WLC, employing
+	   stimulated Brillouin scattering (SBS) for producing the negative
+	   dispersion, using two different configurations. In one
+	   configuration, an absorption peak produced by a Brillouin pump
+	   is used. In the other configuration, two gain peaks produced by
+	   two separate Brillouin pumps are employed. In each case, we see
+	   evidence of the WLC effect. However, the range of parameters
+	   accessible experimentally limits the degree of the WLC effect
+	   significantly. We present a theoretical analysis for the optimal
+	   combinations of parameters, such as a high Brillouin gain
+	   coefficient and a low transmission loss, necessary for achieving
+	   the condition of a vanishing group index, as required for
+	   creating an ideal WLC.},
+	keywords={optical fibre dispersion;optical pumping;optical
+	   resonators;stimulated Brillouin scattering;Brillouin gain
+	   coefficient;Brillouin pump;fiber loop;fiber resonator;group
+	   index;negative dispersion;optical data buffering;stimulated
+	   Brillouin scattering;white light cavity
+	   effect;Absorption;Amplitude modulation;Cavity
+	   resonators;Frequency
+	   modulation;Indexes;Probes;Scattering;Brillouin
+	   scattering;dispersion;fast light;fiber optics;optical
+	   resonators;white light cavity},
+	doi={10.1109/JLT.2013.2288326},
+	ISSN={0733-8724},
+	month={Dec}
+}
+
+