000262454 001__ 262454
000262454 005__ 20190619220138.0
000262454 022__ $$a1536-1225
000262454 022__ $$a1548-5757
000262454 02470 $$a000451983000011$$2isi
000262454 0247_ $$a10.1109/LAWP.2018.2856622$$2doi
000262454 037__ $$aARTICLE
000262454 245__ $$aNonreciprocity in Microwave Optomechanical Circuits
000262454 260__ $$aPiscataway$$c2018$$bIEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
000262454 269__ $$a2018-11-01
000262454 336__ $$aJournal Articles
000262454 520__ $$aNonreciprocal devices such as isolators and circulators are necessary to protect sensitive apparatus from unwanted noise. Recently, a variety of alternatives were proposed to replace ferrite-based commercial technologies, with the motivation to be integrated with microwave superconducting quantum circuits. Here, we review isolators realized with microwave optomechanical circuits and present a gyrator-based picture to develop an intuition on the origin of nonreciprocity in these systems. Such nonreciprocal optomechanical schemes show promise as they can be extended to circulators and directional amplifiers, with perspectives to reach the quantum limit in terms of noise.
000262454 650__ $$aEngineering, Electrical & Electronic
000262454 650__ $$aTelecommunications
000262454 650__ $$aEngineering
000262454 650__ $$aTelecommunications
000262454 6531_ $$acircuits and systems
000262454 6531_ $$acircuits
000262454 6531_ $$aisolators
000262454 6531_ $$aactive circuits
000262454 6531_ $$agyrators
000262454 6531_ $$apower electronics
000262454 6531_ $$afrequency conversion
000262454 6531_ $$asuperconductivity
000262454 6531_ $$asuperconducting devices
000262454 6531_ $$asuperconducting microwave devices
000262454 6531_ $$anon-reciprocity
000262454 6531_ $$aamplifier
000262454 700__ $$g185854$$0248372$$aBernier, Nathan Rafael
000262454 700__ $$g235628$$0247506$$aToth, Laszlo Daniel
000262454 700__ $$0247304$$aFeofanov, Alexey K.$$g234786
000262454 700__ $$aKippenberg, Tobias J.$$0244694$$g182444
000262454 773__ $$k11$$j17$$q1983-1987$$tIeee Antennas And Wireless Propagation Letters
000262454 8560_ $$fmohammad.bereyhi@epfl.ch
000262454 909C0 $$zPasquier, Simon$$0252348$$yApproved$$pLPQM$$xU11892$$mmohammad.bereyhi@epfl.ch
000262454 909CO $$particle$$ooai:infoscience.epfl.ch:262454$$pSTI$$pSB
000262454 961__ $$afantin.reichler@epfl.ch
000262454 973__ $$rREVIEWED$$sPUBLISHED$$aEPFL
000262454 980__ $$aARTICLE
000262454 980__ $$aWoS
000262454 981__ $$aoverwrite