“Observing unconventional superconductivity via kinetic inductance in Weyl semimetal MoTe2,” M. Kreidel, J. Balgley, X. Chu, N. Verma, J. Ingham, R. Queiroz, J. Hone, R. M. Westervelt, and K. C. Fong, preprint available.
“Infrared single-photon detection with superconducting magic-angle twisted bilayer graphene,” G. Di Battista, K. C. Fong, A. D ́ıez-Carlo ́n, K. Watanabe, T. Taniguchi, D. K. Efetov, Sci. Adv. 10, eadp3725 (2024)
“Performance limits to graphene single-photon bolometers by thermal transport,” C. Fried, B. J. Russell, E. G. Arnault, B. Huang, G.-H. Lee, D. Englund, E. A. Henriksen, K. C. Fong, Phys. Rev. Applied 21, 014006 (2024).
“Graphene amplifier reaches the quantum limit,” K. C. Fong, Nat. Nanotechnol. 17, 1128 (2022).
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“Wideband Josephson parametric amplifier with integrated transmission line transformer,”L.Ranzani,G.Ribeill, B. Hassick, and K. C. Fong, IEEE Int. Conf. on Quantum Computing and Engineering, 314 (2022).
“Revealing the ultra-sensitive calorimetric properties of superconducting magic-angle twisted bilayer graphene,” G. Di Battista, P. Seifert, K. Watanabe, T. Taniguchi, K. C. Fong, A. Principi, D. K. Efetov, Nano Lett. 22, 6465 (2022).
“Materials and devices for fundamental quantum science and quantum technologies,” M. Polini, F. Giazotto, K. C. Fong, I. M. Pop, C. Schuck, T. Boccali, G. Signorelli, M. D’Elia, R. H. Hadfield, V. Giovannetti, D. Rossini, A. Tredicucci, D. K. Efetov, F. H. L. Koppens, P. Jarillo-Herrero, A. Grassellino, D. Pisignano, arXiv:2201.09260.
“Miniaturizing transmon qubits using van der Waals materials,” A. Antony, M. V. Gustafsson, G. Ribeill, M. Ware, A. Rajendran, L. C. G. Govia, T. A. Ohki, T. Taniguchi, K. Watanabe, J. Hone, and K. C. Fong, Nano Lett. 21, 10122 (2021).
“Making high-quality quantum microwave devices with Van der Waals superconductors,”A.Antony, M.V.Gustafs- son, A. Rajendran, A. Benyamini, G. Ribeill, T. A. Ohki, T. Taniguchi, K. Watanabe, J. Hone, and K. C. Fong, J. Phys.: Condens. Matter 34, 103001 (2021)
“Axion quasiparticles for axion dark matter detection,”J.Schu ̈tte-Engel,D.J.E.Marsh,A.J.Millar,A.Sekine, F.Chadha-Day,S.Hoof,M.Ali,K.C.Fong,E.Hardy,L.S ̆mejkal,J.Cosmol.Astropart.Phys.8,66(2021).
“Josephson-junction infrared single-photon detector,” E. D. Walsh, W. Jung, G.-H. Lee, D. K. Efetov, B.- I. Wu, K.-F. Huang, T. A. Ohki, K. Watanabe, T. Taniguchi, P. Kim, D. Englund, and K. C. Fong, Science 372, 409 (2021).
“UltrasensitivecalorimetricmeasurementsoftheelectronicHeatcapacityofgraphene,”M.M.Aamir,J.N.Moore, X. Lu, P. Seifert, D. Englund, K. C. Fong, D. K. Efetov, Nano Lett. 21, 5330 (2021).
“Graphene-based bolometer for detecting keV-range superlight dark matter,” D. Kim, J.-C. Park, K. C. Fong, G.-H. Lee, arXiv:2002.07821.
“Graphene-based Josephson junction microwave bolometer,” G.-H. Lee, D. K. Efetov, W. Jung, L. Ran- zani, E. Walsh, T. A. Ohki, K. Watanabe, T. Taniguchi, P. Kim, D. Englund, and K. C. Fong, Nature 586, 42 (2020)
“Evidence of Higher Order Topology in Multilayer WTe2 from Josephson Coupling through Anisotropic Hinge States,” Y.-B. Choi, Y. Xie, C.-Z. Chen, J.-H. Park, S.-B. Song, J. Yoon, B. J. Kim, T. Taniguchi, K. Watanabe, J.-H. Kim, K. C. Fong, M. N. Ali, K. T. Law, G.-H. Lee, Nat. Materials 19, 974 (2020)
“Magic-angle bilayer graphene nano-calorimeters – towards broadband, energy-resolving single photon detec- tion,” P. Seifert, X. Lu, P. Stepanov, J. R. Duran, J. N. Moore, K. C. Fong, A. Principi, D. K. Efetov, Nano Lett. 20, 3459 (2020).
“Proposal to Detect Dark Matter Using Axionic Topological Antiferromagnets,” D. J. E. Marsh, K. C. Fong, E. W.Lentz,L.S ̆mejkal,andM.N.Ali,Phys.Rev.Lett.123,121601(2019).
“KineticInductanceTravelingWaveAmplifiersForMultiplexedQubitReadout,”L.Ranzani,M.Bal,K.C.Fong, G. Ribeill, X. Wu, J. Long, H. S. Ku, R. P. Erickson, D. Pappas, T. A. Ohki, Appl. Phys. Lett. 113, 242602 (2018).
“Asymmetric Josephson Effect in Inversion Symmetry Breaking Topological Materials,” C.-Z. Chen, J. J. He, M. Ali, G.-H. Lee, K. C. Fong, K. T. Law, Phys. Rev. B 98, 075430 (2018).
“Impact of contact resistance in Lorenz number measurements,” K. C. Fong, arXiv:1711.04005.
“Fast thermal relaxation in cavity-coupled graphene bolometers with a Johnson noise read-out,” D. K. Efetov, R.-J. Shiue, Y. Gao, B. Skinner, E. Walsh, H. Choi, J. Zheng, C. Tan, G. Grosso, C. Peng, J. Hone, K. C. Fong, and D. Englund, Nat. Nanotechnol. 13, 797 (2018).
“Hydrodynamics of electrons in graphene,” A. Lucas and K. C. Fong, J. Phys.: Condens. Matter 30, 053001 (2018)
“Graphene-based Josephson junction single photon detector,” E. D. Walsh, D. K. Efetov, G.-H. Lee, M. Heuck, J. Crossno, T. A. Ohki, P. Kim, D. Englund, K. C. Fong, Phys. Rev. Applied 8, 024022 (2017).
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“Frictional magneto-Coulomb drag in graphene double-layer heterostructure,” X. Liu, L. Wang, K. C. Fong, Y. Gao, P. Maher, K. Watanabe, T. Taniguchi, J. Hone, C. Dean, P. Kim, Phys. Rev. Lett. 119, 056802 (2017).
“Active 2D materials for on-chip nanophotonics and quantum optics,” R.-J. Shiue, D. K. Efetov, G. Grosso, C. Peng, K. C. Fong, and D. Englund, Nanophotonics 6, 1329 (2017).
“ObservationoftheDiracfluidandthebreakdownoftheWiedemann-Franzlawingraphene,”J.Crossno, J. K. Shi, K. Wang, X. Liu, A. Harzheim, A. Lucas, S. Sachdev, P. Kim, T. Taniguchi, K. Watanabe, T. A. Ohki, and K. C. Fong, Science 351, 1058 (2016).
“Transport in inhomogeneous quantum critical fluids and in the Dirac fluid in graphene,” A. Lucas, J. Crossno, K. C. Fong, P. Kim, and S. Sachdev, Phys. Rev. B 93, 075426 (2016).
“DevelopmentofhighfrequencyandwidebandwidthJohnsonnoisethermometry,”J.Crossno,X.Liu,T.A.Ohki, P. Kim, and K. C. Fong, Appl. Phys. Lett. 106, 023121 (2015).
“The effect of spin transport on spin lifetime in nanoscale systems,” J. Cardellino, N. Scozzaro, M. R. Herman, A. J. Berger, C. Zhang, K. C. Fong, C. Jayaprakash, D. V. Pelekhov, and P. C. Hammel, Nat. Nanotechnol. 9, 343 (2014).
“Measurement of the Electronic Thermal Conductance Channels and Heat Capacity of Graphene at Low Tem- perature,” K. C. Fong, E. E. Wollman, H. Ravi, W. Chen, A. A. Clerk, M. D. Shaw, H. G. Leduc, and K. C. Schwab, Phys. Rev. X 3, 041008 (2013).
“Ultra-sensitiveandwidebandwidththermalmeasurementsofgrapheneatlowtemperature,”K.C.Fong and K. C. Schwab, Phys. Rev. X 2, 031006 (2012).
“Spinlifetimeinsmallelectronspinensemblesmeasuredbymagneticresonanceforcemicroscopy,”K.C.Fong, M. R. Herman, P. Banerjee, D. V. Pelekhov and P. C. Hammel, Phys. Rev. B 84, 220405(R) (2011).
“Magnetization reversal in an individual 25 nm iron-filled carbon nanotube ,” P. Banerjee, F. Wolny, D. V. Pelekhov, M. R. Herman, K. C. Fong, U. Weissker, T. Mu ̈hl, Yu. Obukhov, A. Leonhardt, B. Bu ̈chner, and P. C. Hammel, Appl. Phys. Lett. 96, 252505 (2010).
“Manipulatingspinsbycantileversynchronizedfrequencymodulation:avariableresolutionmagneticresonance force microscope,” K. C. Fong, P. Banerjee, Yu. Obukhov, D. V. Pelekhov and P. C. Hammel, Appl. Phys. Lett. 93, 012506 (2008).
“Detection of higher order modulation harmonics in magnetic resonance force microscopy,” T. Mewes, C. K. A. Mewes, E. Nazaretski, J. Kim, K. C. Fong, Y. Obukhov, D. V. Pelekhov, P. E. Wigen and P. C. Hammel, J. Appl. Phys. 102, 33911 (2007).
“Realtimecantileversignalfrequencydeterminationusingdigitalsignalprocessing”,Yu.Obukhov,K.C.Fong, D. Daughton and P. C. Hammel, J. Appl. Phys. 101, 034315 (2007).
“Light-freemagneticresonanceforcemicroscopyforstudiesofelectronspinpolarizedsystems”,D.V.Pelekhov, C. Selcu, P. Banerjee, K. C. Fong, P. C. Hammel, H. Bhaskaran and K. Schwab, J. Magn. Mag. Matls. 286, 324 (2005).