000267141 001__ 267141
000267141 005__ 20190625174542.0
000267141 022__ $$a0146-9592
000267141 022__ $$a1539-4794
000267141 02470 $$a000461327800047$$2isi
000267141 0247_ $$a10.1364/OL.44.001472$$2doi
000267141 037__ $$aARTICLE
000267141 245__ $$aOrthogonally polarized frequency comb generation from a Kerr comb via cross-phase modulation
000267141 260__ $$c2019$$aWashington$$bOPTICAL SOC AMER
000267141 269__ $$a2019-03-15
000267141 336__ $$aJournal Articles
000267141 520__ $$aWe experimentally demonstrate that a single microresonator can emit two orthogonally polarized individually coherent combs: (i) a strong polarized soliton comb and (ii) an orthogonally polarized continuous wave seeded weaker comb, generated from the first one via cross-phase modulation, sharing the repetition rate of the soliton comb. Experimental results show that the power of the transverse electric-polarized seed can be well below the threshold of comb generation (e.g., 0.1 mW). In addition, simulations show that a dark pulse could be generated in the anomalous dispersion regime by a bright soliton when the two orthogonally polarized modes have the same group velocity in the microresonator. (C) 2019 Optical Society of America
000267141 650__ $$aOptics
000267141 650__ $$aOptics
000267141 6531_ $$acavity solitons
000267141 6531_ $$ainstability
000267141 700__ $$aBao, Changjing
000267141 700__ $$aLiao, Peicheng
000267141 700__ $$aKordts, Arne$$0248692$$g224397
000267141 700__ $$aZhang, Lin
000267141 700__ $$aMatsko, Andrey
000267141 700__ $$aKarpov, Maxim$$0249007$$g252379
000267141 700__ $$aPfeiffer, Martin H. P.$$0247648$$g203731
000267141 700__ $$aXie, Guodong
000267141 700__ $$aCao, Yinwen
000267141 700__ $$aAlmaiman, Ahmed
000267141 700__ $$aTur, Moshe
000267141 700__ $$aKippenberg, Tobias J.$$0244694$$g182444
000267141 700__ $$aWillner, Alan E.
000267141 773__ $$k6$$j44$$q1472-1475$$tOptics Letters
000267141 8560_ $$fmohammad.bereyhi@epfl.ch
000267141 909C0 $$zPasquier, Simon$$0252348$$yApproved$$pLPQM$$xU11831$$mmohammad.bereyhi@epfl.ch
000267141 909CO $$particle$$ooai:infoscience.epfl.ch:267141$$pSTI$$pSB
000267141 961__ $$apierre.devaud@epfl.ch
000267141 973__ $$aEPFL$$sPUBLISHED$$rREVIEWED
000267141 980__ $$aARTICLE
000267141 980__ $$aWoS
000267141 981__ $$aoverwrite