J.Gail, M.Mück, und C.Heiden
Influence of the local magnetic field on the movement of a single vortex pinned in a niobium thin film dc SQUID
Appl.Phys.Lett. 75, 3375 (1999).

M.Mück and J.Clarke
      The SQUID microstrip amplifier: Computer models
J.Appl.Phys. 88, 6910-6918 (2000)

M.Mück, J.B.Kycia and J.Clarke
      Superconducting quantum interference device as a near-quantum-limited amplifier at 0.5 GHz
Appl.Phys.Lett. 78, 967 (2001)

M.Mück and J.Clarke
      Harmonic Distortion and Intermodulation Products in the Microstrip Amplifier Based on a Superconducting Quantum Interference Device
Appl.Phys.Lett. 78, 3666 (2001).

 M.Mück, B.Chesca und Y.Zhang
      Radio Frequency SQUIDs and their applications
NATO Science Series E: 
     Applied Sciences 375, 505-540 (2002).

R.McDermott, A.H.Trabesinger, M.Mück, E.Hahn, A.Pines and J.Clarke
       Liquid-State NMR and Scalar Couplings in Microtesla Magnetic Fields
Science 295, 2247-2249 (2002).

M.Mück, C.Welzel and J.Clarke
Superconducting quantum interference device amplifiers at gigahertz frequencies
Appl.Phys.Lett. 82, 3266-3268 (2003).

R.Bradley, J.Clarke, D.Kinion, L.J.Rosenberg, K.v.Bibber, S.Matsuki, 
M.Mück and P.Sikivie
       Microwave Cavity Searches for Dark-Matter Axions
       Rev.Mod.Phys. 75, 777-817 (2003).

M.Mück, M.Korn, C.G.A.Mugford, and J.B.Kycia,
       A simple three-channel dc SQUID system using time domain multiplexing
      Rev.Sci.Instrum. 75, 2660-2663 (2004).

M.Mück, M.Korn, C.G.A.Mugford, J.B.Kycia, and J.Clarke,
       Measurements of the 1/f noise in Josephson junctions in the zero voltage state:  Implications for decoherence in superconducting qubits
       Appl.Phys.Lett. 86, 012510 (2005).

 M.Mück
      SQUIDs: microscopes and nondestructive evaluation
      Phys.Stat.Sol.(c) 2, 1510–1523 (2005).

M.Mück, M.Korn, C.Welzel, S.Grawunder, and F.Schölz 
        Nondestructive evaluation of various materials using a SQUID-based eddy-current system
        IEEE Trans.Appl.Supercond. AS-15, 733-736 (2005).

M.Mück, M.Korn, C.G.A.Mugford, and J.B.Kycia
        Cryogenic direct current superconducting quantum interference device readout circuit
        Rev.Sci.Instrum. 76, 074701 (2005).

A.Vinante, P.Falferi, R.Mezzena, and M.Mück
Hot-electron effect in palladium thin films
Phys.Rev.B 75, 104303 (2007).

M.Mück and F.Schölz
A SQUID-Based Nondestructive Evaluation System for Testing Wires of Arbitrary Length
IEEE Trans.Appl.Supercond. AS-17, 3809 (2007).

S.Sendelbach, D.Hover, A.Kittel, M.Mück, J.M.Martinis, R.McDermott
Magnetism in SQUIDs at millikelvin temperatures
Phys.Rev.Lett. 100: 227006 (2008).

M.Mück, D.Hover, S.Sendelbach, and R.McDermott
Microstrip superconducting quantum interference device radio-frequency amplifier: Effects of negative feedback on input impedance
Appl.Phys.Lett. 94, 132509 (2009).

S.Sendelbach, D.Hover, M.Mück, R.McDermott
Complex inductance, excess noise, and surface magnetism in dc SQUIDs
Phys.Rev.Lett.103:117001 (2009).

N.Kelso, S.K.Lee, L.S.Bouchard, V.Demas, M.Mück, A.Pines, J.Clarke
Distortion-free magnetic resonance imaging in the zero-field limit
J Magn Reson. 200, 285 (2009).

M.Mück and R.McDermott
Topical review: Radio-frequency amplifiers based on dc SQUIDs
Supercond.Sci.Technol. 23, 093001 (2010).

X.M.Xie, Y.Zhang, H.W.Wang, Y.L.Wang, M.Mück, H.Dong, H.J.Krause, A.I.Braginski, A.Offenhäusser and M.H.Jiang
A voltage biased superconducting quantum interference device 
bootstrap circuit
Supercond.Sci.Technol. 23, 065016 (2010).

M.Schmelz, R.Stolz, V.Zakosarenko, T.Schönau, S.Anders, L.Fritzsch, M.Mück and H-G.Meyer
Field-stable SQUID magnetometer with sub-fT Hz^-1/2 resolution based on sub-micrometer cross-type Josephson tunnel junctions
Supercond.Sci.Technol. 24, 065009 (2011).