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SQUIDs and Superconductivity

449. Magnetic Flux Noise in dc SQUIDs: Temperature and Geometry Dependence, S. M. Anton, J. S. Birenbaum, S. R. O’Kelley, V. Bolkhovsky, D. A. Braje, G. Fitch, M. Neeley, G. C. Hilton, H.-M. Cho, K. D. Irwin, F. C. Wellstood, W. D. Oliver, A. Shnirman, and John Clarke, Phys. Rev. Lett. 110, 147002 (2013). [Article] [PDF]

448. Gain, directionality and noise in microwave SQUID amplifiers: Linear response approach, Archana Kamal, John Clarke and Michel Devoret, Phys. Rev. B 86, 144510 (2012). Editors’ Suggestion. [Article] [PDF]

445. Low-frequency critical current noise in Josephson junctions induced by temperature fluctuations, S. M. Anton, C. D. Nugroho, J. S. Birenbaum, S. R. O'Kelley, V. Orlyanchik, A.F. Dove, G. A. Olson, Z. R. Yoscovitz, J. N. Eckstein, D. J. Van Harlingen and John Clarke, Applied Phys. Letters 101, 092601 (2012). [Article] [PDF]1

439. SQUIDs and Detectors, A.I. Braginski, John Clarke, C. P. Foley, Kent Irwin, Peter Michelson, Ronald E. Sager and Arnold Silver, Chaper 5 in 100 Years of Superconductivity (eds. Horst Rogalla and Peter H. Kes) Taylor and Francis Group, Boca Raton, FL 2012, pp. 311 – 373

433. Role of Geometry on the Color of Flux Noise in dc SQUIDs, F.C. Wellstood, C. Urbina and John Clarke, IEEE Trans. Appl. Supercond. 21, 856 (2011). [Article]

431. Dispersive Magnetometry with a Quantum-Limited SQUID Parametric Amplifier, M. Hatridge, R. Vijay, D.H. Slichter, John Clarke and I. Siddiqi, Phys. Rev. B 83, 134501 (2011). Editors' Suggestion. [Article]

Viewpoint: Harnessing nonlinearity for linear measurements, Hendrik Bluhm Physics 4, 29 (2011). [Article]

430. SQUIDs for Everything, John Clarke, Interview with Fabio Pulizzi, Nature Materials 10, 262 (2011). [Article]

429. Noiseless Nonreciprocity in a Parametric Active Device, Archana Kamal, John Clarke and Michel Devoret, Nature Physics 7, 311-315 (2011). [Article]

428. SQUIDs: Then and Now, John Clarke, chapter in BCS: 50 Years (eds. Leon N Cooper and Dmitri Feldman) World Scientific Publishing Co. Pte. Ltd., Singapore (2010) pp. 145-184. [Article]

427. SQUIDs: Then and Now, John Clarke, International Journal of Modern Physics B 24, 3999–4038 (2010). [Article]

420. Localization of Metal-Induced Gap States at the Metal-Insulator Interface: Origin of Flux Noise in SQUIDs and Superconducting Qubits, SangKook Choi, Dung-Hai Lee, Steven G. Louie and John Clarke, Phys. Rev. Lett. 103 197001-1 – 197001-4 (2009). [Article]

413. A Numerical Treatment of the rf SQUID: II. Noise Temperature, R. Kleiner, D. Koelle and John Clarke, J. Low Temp. Phys. 149, 261-293 (2007). [Article]

412. A Numerical Treatment of the rf SQUID: I.General Properties and Noise Energy, R. Kleiner, D. Koelle and John Clarke, J. Low Temp. Phys. 149, 230-260 (2007). [Article]

411. Model for 1/f Flux Noise in SQUIDs and Qubits, Roger H. Koch, David P. DiVincenzo and John Clarke,Physical Review Letters 98, 267003-1 – 267003-4 (2007). [Article]

406. Wired for the Future, John Clarke and David C. Larbalestier, Nature Physics Commentary, 2, No. 12, 794-796 (2006). [Article]

405. SQUID Voltmeters and Amplifiers, John Clarke, Adrian T. Lee, Michael Mück and Paul L. Richards, The SQUID Handbook Vol. II Applications of SQUIDs and SQUID Systems, (eds. John Clarke, Alex I. Braginski) Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim (2006) pp. 1-93. [Book]

404. The SQUID Handbook Vol. II Applications of SQUIDs and SQUID Systems, (eds. John Clarke, Alex I. Braginski) Wiley-VCH, Weinheim, Germany (2006). [Book]

400. Stabilizing Superconductivity in Nanowires by Coupling to Dissipative Environments, Henry C. Fu, Alexander Seidel, John Clarke and Dung-Hai Lee, Phys. Rev. Lett. 96, 157005 (2006). [Article]

391. Flicker (1/f) Noise in the Critical Current of Josephson Junctions at 0.09 - 4.2 K, F.C. Wellstood, C. Urbina and John Clarke, Appl. Phys. Lett. 85, 5296 (2004). [Article]

388. Macroscopic Quantum Mechanics of the Current-Biased Josephson Junction, M. H. Devoret, D. Esteve, C. Urbina, J. Martinis, A. Cleland and J. Clarke, in Exploring the Quantum/Classical Frontier: Recent Advances in Macroscopic Quantum Phenomena, Jonathan Friedman and Siyuan Han (eds.) Nova Science Publishers, Inc., New York, 2003, pp. 1-34. [Book]

387. Superconducting QUantum Interference Devices: State of the Art and Applications, Reinhold Kleiner, Dieter Koelle, Frank Ludwig, and John Clarke, Proceedings of the IEEE, Special Issue on Applications of Superconductivity 92, 1534-1548, October 2004. [Article]

378. Introduction, Alex Braginski and John Clarke, The SQUID Handbook Vol. 1 Fundamentals and Technology of SQUIDs and SQUID Systems, (eds. John Clarke, Alex I. Braginski) Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim (2004) pp. 1-28. [Book]

377. The SQUID Handbook Vol. 1 Fundamentals and Technology of SQUIDs and SQUID Systems, (eds. John Clarke, Alex I. Braginski) Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim (2004). [Book]


Superconducting Flux Qubits

447. Heralded state preparation in a superconducting qubit, J. E. Johnson, C. Macklin, D. H. Slichter, R. Vijay, E. B. Weingarten, John Clarke, and I. Siddiqi, Phys. Rev. Lett. 109, 050506 (2012). [Article] [PDF]

442. Pure dephasing in flux qubits due to flux noise with spectral density scaling as 1/fα, S. M. Anton, C. Müller, J. S. Birenbaum, S. R. O’Kelley, A. D. Fefferman, D. S. Golubev, G. C. Hilton, H.-M. Cho, K. D. Irwin, F. C. Wellstood, Gerd Schön, A. Shnirman, and John Clarke, Phys. Rev. B 85, 224505 (2012). [Article] [PDF]

436. Dispersive readout of a flux qubit at the single photon level, J. E. Johnson, E. M. Hoskinson, C. Macklin, D. H. Slichter, I. Siddiqi, and John Clarke, Phys. Rev. B 84, 220503(R) (2011). [Article]

415. Superconducting Quantum Bits, John Clarke and Frank K. Wilhelm, Nature 453, 1031-1042 (2008). [Article]

408. Solid-State Qubits with Current-Controlled Coupling, T. Hime, P.A. Reichardt, B.L.T. Plourde, T.L. Robertson, C.-E. Wu, A.V. Ustinov, and John Clarke, Science 314, 1427-1429 (2006). [Article]

403. Entangled Solid-State Circuits, Irfan Siddiqi and John Clarke, Science Perspective, 313, 1400 (2006). [Article]

401. Quantum Theory of Three-Junction Flux Qubit with Non-Negligible Loop Inductance: Towards Scalability, T.L. Robertson, B.L.T. Plourde, P.A. Reichardt, T. Hime, C.-E. Wu and John Clarke, Phys. Rev. B 73, 174526 (2006). [Article]

397. Flux Qubits and Readout Device with Two Independent Flux Lines, B.L.T. Plourde, T.L. Robertson, P.A. Reichardt, T. Hime, S. Linzen,C.-E. Wu and John Clarke, Phys. Rev. B 72, 060506-1 - 060506-4 (2005). [Article]

394. Superconducting QUantum Interference Device with Frequency-Dependent Damping:  Readout of Flux Qubits, T.L. Robertson, B.L.T. Plourde, T. Hime, S. Linzen, P.A. Reichardt, F.K. Wilhelm and John Clarke, Phys. Rev. B 72, 024513-1 - 024513-9 (2005). [Article]

393. Measurements of 1/f Noise in Josephson Junctions at Zero Voltage:  Implications for Decoherence in Superconducting Quantum Bits, Michael Mück, Matthias Korn, C.G.A. Mugford, J.B. Kycia and John Clarke, Appl. Phys. Lett. 86, 012510 (2005). [Article]

390. Entangling Flux Qubits with a Bipolar Dynamic Inductance, B.L.T. Plourde, J. Zhang, K.B. Whaley, F.K. Wilhelm, T.L. Robertson, T. Hime, S. Linzen, P.A. Reichardt, C.-E. Wu, and John Clarke, Phys. Rev. B 70 140501 (2004) [Article]

389. Decoherence in Josephson-junction Qubits due to Critical Current Fluctuations, D.J. Van Harlingen, T.L. Robertson, B.L. T. Plourde, P.A. Reichardt, T.A. Crane, and John Clarke, Phys. Rev. B 70 064517 (2004). [Article]

383. Low-Noise Computer-Controlled Current Source for Quantum Coherence Experiments, S. Linzen, T.L. Robertson, T. Hime, B.L.T. Plourde, P.A. Reichardt, and John Clarke, Rev. Sci. Instrum. 75, 2541 (2004). [Article]

382. Decoherence in Flux Qubits due to l/f Noise in Josephson Junctions, D.J. Van Harlingen, B.L.T. Plourde, T.L. Robertson, P.A. Reichardt, and John Clarke, in Quantum Computing and Quantum Bits in Mesoscopic Systems, (Eds. Anthony Leggett, Berardo Ruggiero, and Paolo Silvestrini), Kluwer Academic/Plenum Publishers, New York 2004, pp. 171-184.  Proceedings of the 3rd International Workshop on Quantum Computing, June 3-7 2002 Citta della Scienza, Napoli Italy. [Book]


Ultralow frequency NMR and MRI

440. Ultralow Field NMR and MRI, John Clarke, Chapter 10.5 in 100 Years of Superconductivity (eds. Horst Rogalla and Peter H. Kes) Taylor and Francis Group, Boca Raton, FL 2012, pp. 610 – 618.

438. Measurements of T1-relaxation in ex vivo prostate tissue at 132 µT, Sarah Busch, Michael Hatridge, Michael Mößle, Whittier Myers, Travis Wong, Michael Mück, Kevin Chew, Kyle Kuchinsky, Jeffry Simko, and John Clarke, Magnetic Resonance in Medicine 67:1138–1145 (2012) [Article]

418.Distortion-Free Magnetic Resonance Imaging in the Zero-Field Limit, Nathan Kelso, Seung-Kyun Lee, Louis-S. Bouchard, Vasiliki Demas, Michael Mück, Alexander Pines and John Clarke, Journal of Magnetic Resonance 200, 285-290 (2009). [Article]

410. SQUID-Detected Magnetic Resonance Imaging in Microtesla Fields, John Clarke, Michael Hatridge and Michael Moessle, Annu. Rev. Biomed. Eng. 9 (2007). [Article]

409. Calculated signal-to-noise ratio of MRI detected with SQUIDs and Faraday detectors in fields from 10 µT to 1.5 T, Whittier Myers, Daniel Slichter, Michael Hatridge, Sarah Busch, Michael Mößle, Robert McDermott, Andreas Trabesinger, and John Clarke, Journal of Magnetic Resonance 186, 182-192 (2007). [Article]

402. Static Nuclear Spin Polarization Induced in a Liquid by a Rotating Magnetic Field, SeungKyun Lee, Erwin L. Hahn and John Clarke, Phys. Rev. Lett. 96, 257601 (2006). [Article]

399. SQUID-Detected Microtesla MRI in the Presence of Metal, Michael Mößle, Song-I Han, Whittier R. Myers, Seung-Kyun Lee, Nathan Kelso, Michael Hatridge, Alexander Pines and John Clarke, Journal of Magnetic Resonance 179, 146-151 (2006). [Article]

398. Correction of Concomitant Gradient Artifacts in Experimental Microtesla MRI, Whittier R. Myers, Michael Mössle and John Clarke, Journal of Magnetic Resonance 177, 274-284 (2005). [Article]

395. SQUID-Detected in Vivo MRI at Microtesla Magnetic Fields, Michael, Mössle, Whittier R. Myers SeungKyun Lee, Nathan Kelso, Michael Hatridge, Alexander Pines and John Clarke, IEEE Trans. Appl. Supercond. 15, 757-760 (2005). [Article]

392. SQUID-Detected MRI at 132 µT with T1- Weighted Contrast Established at 10 µT-300 mT, Seungkyun Lee, Michael Mossle, Whittier Myers, Nathan Kelso, Andreas H. Trabesinger, Alexander Pines, and John Clarke, Magnetic Resonance in Medicine, 53, 9-14 (2005). [Article]

381. SQUID-Detected Liquid State NMR in Microtesla Fields, A.H. Trabesinger, R. McDermott, S-K. Lee, M. Mueck, John Clarke and Alex Pines, J. Phys. Chem. A, 108, 957-963 (2004). [Article]

380. SQUID-Detected Magnetic Resonance Imaging in Microtesla Magnetic Fields, R. McDermott, N. Kelso, S-K. Lee, M. Mössle, M. Mück, W. Myers, B. ten Haken, H.C. Seton, A.H. Trabesinger, A. Pines and J. Clarke, J. Low Temp. Phys. 135, 793-821 (2004). [Article]

379. Microtesla Magnetic Resonance Imaging with a Superconducting QUantum Interference Device, R. McDermott, S-K. Lee, B. ten Haken, A.H. Trabesinger, Alex Pines and John Clarke, Proc. Natl. Acad. Sci. 101(21), 7857-7861 (2004). [Article]

368. Laser Polarized 129Xe NMR and MRI at Ultra-Low Magnetic Fields, Annjoe Wong-Foy, Sunil Saxena, Adam J. Moulé, Hans-Marcus L. Bitter, Juliette A. Seeley, Robert McDermott, John Clarke, and Alexander Pines, J. Magn. Res. 157 (2), 235 (2002). [Article]

362. Liquid State NMR and Scalar Couplings in Microtesla Magnetic Fields, Robert McDermott, Andreas H. Trabesinger, Michael Mueck , Erwin L. Hahn, Alexander Pines and John Clarke, Science 295, 2247 (2002). [Article]


The Microstrip SQUID Amplifier: near the quantum limit

432. Superconducting Quantum Interference Device as a near-quantum-limited amplifier for the axion dark-matter experiment, D. Kinion and John Clarke, Appl.Phys. Lett. 98, 202503 (2011). [Article]

424. Microstrip Superconducting Quantum Interference Device Amplifier: Conditional Stability, D. Kinion and John Clarke, Appl. Phys. Lett. 96, 172501 (2010). [Article]

414. Microstrip SQUID Radio-Frequency Amplifier: Scattering Parameters and Input Coupling, D. Kinion and John Clarke, Appl. Phys. Lett. 92 172503 (2008). [Article]

371. Superconducting Quantum Interference Device Amplifiers at Gigahertz Frequencies, M. Mueck, C. Welzel and John Clarke, Appl. Phys. Lett. 82, 3266 (2003). [Article] [PDF]

361. The Microstrip dc SQUID Amplifier, John Clarke, Michael Mück, Marc-Olivier André, Jost Gail and Christoph Heiden, in Microwave Superconductivity, (Eds. H. Weinstock and M. Nisenoff) Kluwer Academic Publishers (2001) p. 473. [Book]

355. Flux-Bias Stabilization Scheme for a Radio-Frequency Amplifier Based on a SQUID, M. Mück and J. Clarke, Rev. Sci. Instrum. 72, 3691 (2001). [Article]

353. Harmonic Distortion and Intermodulation Products in the Microstrip Amplifier Based on a Superconducting QUantum Interference Device (SQUID), Michael Mück and John Clarke, Appl. Phys. Lett. 78, 3666 (2001). [Article]

351. Superconducting QUantum Interference Device as a Near-Quantum-Limited Amplifier at 0.5 GHz, M. Mück, J.B. Kycia and J. Clarke, Appl. Phys. Lett. 78, 967 (2001). [Article]

347. The SQUID Microstrip Amplifier: Computer Models, M. Mück and J. Clarke, J. Appl. Phys. 88, 6910 (2000). [Article]

332. Microstrip superconducting quantum interference device radio-frequency amplifier: Tuning and cascading, M. Muck, M.-O. Andre, J. Clarke, J. Gail, C. Heiden, Applied Physics Letters 75, 3545-7 (1999). [Article]

329. Radio-frequency amplifier with tenth-kelvin noise temperature based on a microstrip direct current superconducting quantum interference device, M.-O. Andre, M. A. Muck, J. Clarke, J. Gail, C. Heiden, Applied Physics Letters, 75, (no.5), 698 (1999). [Article]

320. Radio-frequency amplifier based on a niobium dc superconducting quantum interference device with microstrip input coupling, M. Muck, M.-O. Andre, J. Clarke, J. Gail, C. Heiden, Applied Physics Letters, 72 2885 (1998). [Article]


Multiplexer for transition-edge bolometer

444. Frequency Multiplexed SQUID Readout of Large Bolometer Arrays for Cosmic Microwave Background Measurements, M.A. Dobbs, M. Lueker, K.A. Aird, A.N. Bender, B.A. Benson, L.E. Bleem, J.E. Carlstrom, C.L. Chang, H.-M. Cho, J. Clarke, T.M. Crawford, A.T. Crites, D.I. Flanagan, T. de Haan, E.M. George, N.W. Halverson, W.L. Holzapfel, J.D. Hrubes, J. Joseph, R. Keisler, J.Kennedy, Z. Kermish, T.M. Lanting, A.T. Lee, E.M. Leitch, D. Luong-Van, J.J. McMahon, J. Mehl, S.S. Meyer, T.E. Montroy, S. Padin, T. Plagge, C. Pryke, P.L. Richards, J.E. Ruhl, K.K.Schaffer, D. Schwan, E. Shirokoff, H.G. Spieler, Z. Staniszewski, A.A. Stark, K. Vanderlinde, J.D. Vieira, C. Vu, B. Westbrook, R. Williamson, Rev. Sci. Instruments, 83, 073113 (2012). [Article] [PDF]1

441. APEX-SZ: The Atacama Pathfinder Experiment Sunyaev-Zel'dovich Instrument, Daniel Schwan, Rüdiger Kneissl, Peter Ade, Kaustuv Basu, Amy Bender, Frank Bertoldi, Hans Böhringer, Hsaio-Mei Cho, Gayoung Chon, John Clarke, Matt Dobbs, Daniel Ferrusca, Daniel Flanigan, Nils Halverson, William Holzapfel, Cathy Horellou, Daniel Johansson, Bradley Johnson, James Kennedy, Zigmund Kermish, Matthias Klein, Trevor Lanting, Adrian Lee, Martin Lueker, Jared Mehl, Karl Menten, Dirk Muders, Florian Pacaud, Thomas Plagge, Christian Reichardt, Paul Richards, Reinhold Schaaf, Peter Schilke, Martin Sommer, Helmuth Spieler, Carole Tucker, Axel Weiss, Benjamin Westbrook, Oliver Zahn, The Messenger, 147, 7-13 (March 2012). [Article] [PDF]

396. Frequency-Domain Multiplexed Readout of Transition-Edge Sensor Arrays with a Superconducting Quantum Interference Device, T.M. Lanting, Hsiao-Mei Cho, John Clarke, W.L. Holzapfel, Adrian T.Lee, M. Lueker, P.L. Richards, Matt A. Dobbs, Helmuth Spieler and A. Smith, Appl. Phys. Lett., 86, 112511-112513 (2005). [Article]

385. Frequency-Domain Multiplexing for Large-Scale Bolometer Arrays, Millimeter and Submillimeter Detectors for Astronomy, T.M. Lanting, H-M. Cho, J. Clarke, M.A. Dobbs, A.T. Lee, P.L. Richards, H. Spieler, A. Smith (eds. T. Phillips and J. Zmuidzinas) Proceedings of the SPIE, Volume 4855 (2003) pp. 172-181. [Article]

384. Frequency Domain Multiplexing for Bolometer Arrays, T.M. Lanting, Hsiao-Mei Cho, John Clarke, Matt Dobbs, Adrian T. Lee, M. Lueker, P.L. Richards, A.D. Smith, and H.G. Spieler, Nuclear Instruments and Methods in Physics Research A 520, 548-550 (2004). [Article]

365. High-Resolution Operation of Frequency-Multiplexed Transition-Edge Photon Sensors, M.F. Cunningham, J.N. Ullom, T. Miyazaki, S.E. Labov, J. Clarke, T.M. Lanting, A.T. Lee, P.L. Richards, J. Yoon, H. Spieler, Appl. Phys. Lett. 81, 159 (2002). [Article]

360. AC Voltage-Biased Superconducting Bolometer for a Frequency-Domain SQUID Multiplexer, Jongsoo Yoon, John Clarke, J.M. Gildemeister, Adrian T. Lee, and P.L. Richards, Trans. Appl. Supercond. 11, 562 (2001). [Article]

346. A Single SQUID Multiplexer for Arrays of Low Temperature Sensors, Jongsoo Yoon, John Clarke, J.M. Gildemeister, Adrian T. Lee, M.J. Myers, P.L. Richards and J.T. Skidmore, Appl. Phys. Lett. 78, 371 (2001). [Article]


Superconducting Quantum Interference Filters

419.Very Large Scale Integration of Nanopatterned YBa2Cu3O7-&delta Josephson Junctions in a Two-Dimensional Array, Shane A. Cybart, Steven M. Anton, Stephen M. Wu, John Clarke, Robert C. Dynes, Nano Letters 9 3581-3585 (2009). [Article]

416.Series Array of Incommensurate SQUIDs from YBa2Cu3O7-&delta Ion damage Josephson Junctions, Shane A. Cybart, S.M. Wu, S.M. Anton, I. Siddiqi, John Clarke and R.C. Dynes, Appl. Phys. Lett. 93 182502 (2008). [Article]


Astrophysics

446. Low-cost move of a large superconducting magnet on a trailer with air-ride suspension, B. Thomas, D. Will, J. Heilman, K. Tracy, M. Hotz, D. Lyapustin, L. Rosenberg, G. Rybka, A. Wagner, J. Hoskins, C. Martin, N. Sullivan, D. Tanner, S. Asztalos, G. Carosi, C. Hagmann, D. Kinion, K. van Bibber, R. Bradley, J. Clarke, Journal of Applied Packaging Research 6 79-92 (2012) [Article] [PDF]

443. The Axion Dark-Matter eXperiment: Results and plans, S.J. Asztalos, R. Bradley, G. Carosi, J. Clarke, C. Hagmann, J. Hoskins, M. Hotz, D. Kinion, C. Martin, L. J Rosenberg, G. Rybka, P. Sikivie, N.S. Sullivan, D.B. Tanner, K. van Bibber, and A. Wagner, Proceedings of the 7th Patras Workshop on Axions, WIMPs and WISPs, Mykonos, Greece, June 26 to July 1, 2011 [Article] [PDF]

437. Search for non-virialized axionic dark matter, J. Hoskins, J. Hwang, C. Martin, P. Sikivie, N.S. Sullivan, D.B. Tanner, M. Hotz, L. J Rosenberg, G. Rybka, A. Wagner, S.J. Asztalos,y G. Carosi, C. Hagmann, D. Kinion, and K. van Bibber, R. Bradley and John Clarke, Phys. Rev. D 84, 121302(R) (2011) [Article]

435. Millimeter-wave bolometer array receiver for the Atacama pathfinder experiment Sunyaev-Zel’dovich (APEX-SZ) instrument, D. Schwan, P.A.R. Ade, K. Basu, A.N. Bender, F. Bertoldi, H.-M. Cho, G. Chon, J. Clarke, M. Dobbs, D. Ferrusca, R. Güsten, N.W. Halverson, W.L. Holzapfel, C. Horellou, D. Johansson, B. Johnson, J. Kennedy, Z. Kermish, R. Kneissl, T. Lanting, A.T. Lee, M. Lueker, J. Mehl, K.M. Menten, D. Muders, F. Pacaud, T. Plagge, C.L. Reichardt, P.L. Richards, R. Schaaf, P. Schilke, M.W. Sommer, H. Spieler, C. Tucker, A. Weiss, B. Westbrook and O. Zahn, Rev. Sci. Instrum. 82, 091301 (2011). [COVER ARTICLE] [Article]

434. Design and performance of the ADMX SQUID-based microwave receiver, S.J. Asztalos, G. Carosi, C. Hagmann, D. Kinion K. van Bibber, M. Hotz, L. J Rosenberg, G. Rybka, A.Wagner, J. Hoskins, C. Martin, N. Sullivan, D.B. Tanner, R. Bradley and John Clarke, Nucl. Instr. & Meth. Phys. Res. A 656, 39 (2011). [Article]

426. A Search for Hidden Sector Photons with ADMX, A. Wagner, G. Rybka, M. Hotz, L.J. Rosenberg, S.J. Asztalos, G. Carosi, C. Hagmann, D. Kinion, K. van Bibber, J. Hoskins, C. Martin, P. Sikivie, D.B. Tanner, R. Bradley and J. Clarke, Phys. Rev. Lett. 105, 171801-1-4 (2010). [Article]

425. A Search for Chameleon Scalar Fields with Axion Dark Matter Experiment, G. Rybka, M. Hotz, L.J. Rosenberg, S.J. Asztalos, G. Carosi, C. Hagmann, D. Kinion , K. van Bibber, J. Hoskins, C. Martin, P. Sikivie, D.B. Tanner, R. Bradley and J. Clarke, Phys. Rev. Lett. 105, 051801-1-4 (2010). [Article]

423. SQUID-Based Microwave Cavity Search for Dark-Matter Axions, S.J. Asztalos, G. Carosi, C. Hagmann, D. Kinion, K. van Bibber, M. Hotz, L.J. Rosenberg, G. Rybka, J. Hoskins, J. Hwang, P. Sikivie, D. B. Tanner, R. Bradley and J. Clarke, Phys. Rev. Lett. 104, 041301-1 - 041301-4 (2010). [Article]

422. A Frequency Domain Multiplexed Recevier for the South Pole Telescope, M. Lueker, B. Benson, L. Bleem, C. Chang, H.-M. Cho, J. Clarke, A. Crites, T. Crawford, M. Dobbs, W. Holzapfel, T. Lanting, A. Lee, J. Mehl, T. Plagge, E. Shirokoff, H. Spieler and J. Vieira, American Institute of Physics Conference Series (B. Young, B. Cabrera and a. Miller, eds), 1185, 241-244 (2009). [Article]

421. Multi-Frequency Imaging of the Galaxy Cluster Abell 2163 using the Sunyaev-Zel'dovich Effect, M. Nord, K. Base, F. Pacaud, P.A.R. Ade, A.N. Bender, B.A. Benson, F. Bertoldi, H.-M. Cho, G. Chon, J. Clarke, M. Dobbs, D. Ferrusca, N.W. Halverson, W.L. Holzapfel, C. Horellou, D. Johansson, J. Kennedy, Z. Kermish, R. Kneissl, T. Lanting, A.T. Lee, M. Lueker, J. Mehl, K.M. Menten, T. Plagge, C.L. Reichardt, P.L. Richards, R. Schaaf, D. Schwan, H. Spieler, C. Tucker, A. Weiss, and O. Zahn, Astronomy and Astrophysics 506 623-636 (2009). [Article]

417. Sunyaev–Zel’dovich effect observations of the bullet cluster (1e 0657-56) with Apex-Sz, N. W. Halverson, T. Lanting, P.A.R. Ade, K. Basu, A.N. Bender, B.A. Benson, F. Bertoldi, H.-M. Cho, G. Chon, J. Clarke, M. Dobbs, D. Ferrusca, R. Güsten, W.L. Holzapfel, A. Kovács, J. Kennedy, Z. Kermish, R. Kneissl, A.T. Lee, M. Lueker, J. Mehl, K.M. Menten, D. Muders, M. Nord, F. Pacaud, T. Plagge, C. Reichardt, P.L. Richards, R. Schaaf, P. Schilke, F. Schuller, D. Schwan, H. Spieler, C. Tucker, A. Weiss, and O. Zahn, Astrophysical Journal 701 42-51 (2009). [Article]

372. Microwave Cavity Searches for Dark-Matter Axions, Richard Bradley, John Clarke, Darin Kinion, Leslie J. Rosenberg, Karl van Bibber, Seishi Matsuki, Michael Mück, and Pierre Sikivie, Rev. Mod. Phys. 75, 777-817 (2003). [Article]


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