Publications

The publications are listed according to the number of citations. If you are interested in a copy of a publication, please let Andi Moser know.

2009

74.Probing activation energy barrier distribution for reversal of strongly exchange-coupled magnetic multilayer thin films
Ozan Ozatay, Thomas Hauet, Silvia H. Florez, Jordan A. Katine, Andreas Moser, Jan-Ulrich Thiele, Liesl Folks, and Bruce D. Terris
Appl. Phys. Let. 95, 172502 (2009).
73.Lubricant Dynamics on a Slider: "The Waterfall Effect"
Bruno Marchon, Xing-Cai Guo, Andreas Moser, Alan Spool, Richard Kroeker, and Francis Crimi
J. Appl. Phys. 105, 074313 (2009).

2008

72.Improved media performance in optimally coupled exchange spring layer media
A. Berger, N. Supper, Y. Ikeda, B. Lengsfield, A. Moser, and E. E. Fullerton
Appl. Phys. Lett. 92, 122502 (2008).
71.Suppression of Magnetic Trench Material in Bit Patterned Media Fabricated by Blanket Deposition onto Pre-patterned Substrates
O. Hellwig, A. Moser, E. Dobisz, Z. Bandic, H. Yang, D. S. Kercher, J. D. Risner-Jamtgaard, D. Yaney, and E. E. Fullerton
Appl. Phys. Lett. 93, 192501 (2008).

2007

70.Magnetic reversal of sub-100 nm nanostructures studied by a FIB-trimmed recording head
M. Albrecht, C.T. Rettner, A. Moser, and B.D. Terris
MICROSYSTEM TECHNOLOGIES-MICRO-AND NANOSYSTEMS-INFORMATION STORAGE AND PROCESSING SYSTEMS 13, 129 (2007).
69.Analysis of written transition curvature in perpendicular magnetic recording from spin-stand testing
M. Hashimoto, M. Salo, Y. Ikeda, A. Moser, R. Wood, and H. Muraoka
IEEE Trans. Magn. 43, 3315 (2007).
68.Off-track margin in bit patterned media
Andreas Moser, Olav Hellwig, Dan Kercher, and Elisabeth Dobisz
Appl. Phys. Lett. 91, 162502 (2007).

2006

67.Reversible hysteresis loop tuning
A. Berger, C. Binek, D.T. Margulies, A. Moser, and E.E. Fullerton
PHYSICA B-CONDENSED MATTER 372, 168 (2006).
66.Perpendicular magnetic recording technology at 230 Gbit/in(2)
A. Moser, C. Bonhote, Q. Dai, H. Do, B. Knigge, Y. Ikeda, Q. Le, B. Lengsfield, S. Macdonald, J. Li, V. Nayak, R. Payne, M. Schabes, N. Smith, K. Takano, C. Tsang, P. van der Heijden, W. Weresin, M. Williams, and M. Xiao
J. Magn. Magn. Mater. 303, 271 (2006).
65.Experimental study of longitudinal exchange spring media
N.F. Supper, D.T. Margulies, A. Moser, A. Berger, H. Do, and E.E. Fullerton
J. Appl. Phys. 99, 08S310 (2006).
64.Interlayer thickness, transition parameter, and intergranular exchange in perpendicular oxide media
N. Supper, D.T. Margulies, T. Olson, Y. Ikeda, A. Moser, B. Lengsfield, and A. Berger
IEEE Trans. Magn. 42, 2333 (2006).
63.Head challenges for perpendicular recording at high areal density
C. Tsang, C. Bonhote, Q. Dai, H. Do, B. Knigge, Y. Ikeda, Q. Le, B. Lengsfield, J. Lille, J. Li, S. Macdonald, A. Moser, V. Nayak, R. Payne, N. Robertson, M. Schabes, N. Smith, K. Takano, P. van der Heijden, W. Weresin, M. Williams, and M. Xiao
IEEE Trans. Magn. 42, 145 (2006).
62.Recording studies of perpendicular media leading to 230 Gb/in2
M. Xiao, H. Do, W. Weresin, Q. Dai, Y. Ikeda, K. Takano, A. Moser, B. Lengsfield, A. Berger, M. Schabes, V. Nayak, N. Supper, H. Rosen, B. Marchon, M. Minardi, and B. Heinz
J. Appl. Phys. 99, 08E712 (2006).

2005

61.Magnetic dot arrays with multiple storage layers
M. Albrecht, G. Hu, A. Moser, O. Hellwig, and B.D. Terris
J. Appl. Phys. 97, 103910 (2005).
60.Understanding and optimizing laminated recording media (invited)
D.T. Margulies, N. Supper, H. Do, M.E. Schabes, A. Berger, A. Moser, P.M. Rice, P. Arnett, M. Madison, B. Lengsfield, H. Rosen, K. Tang, A. Polcyn, and E.E. Fullerton
J. Appl. Phys. 97, 10N109 (2005).
59.High-resolution magnetic force microscopy study of high-density transitions in perpendicular recording media
A. Moser, M. Xiao, P. Kappenberger, K. Takano, W. Weresin, Y. Ikeda, H. Do, and H. Hug
J. Magn. Magn. Mater. 287:, 298 (2005).
58.Noise subtraction in antiferromagnetically coupled magnetic recording media
A. Moser, N.F. Supper, A. Berger, D.T. Margulies, and E.E. Fullerton
Appl. Phys. Lett. 86, 262501 (2005).
57.Writability enhancement using exchange spring media
N.F. Supper, D.T. Margulies, A. Moser, A. Berger, H. Do, and E.E. Fullerton
IEEE Trans. Magn. 41, 3238 (2005).
56.Studies of transition noise in media recorded by heads with trailing shields
M. Williams, W. Weresin, B. Lengsfield, A. Moser, L. Nix, and R. Payne
J. Magn. Magn. Mater. 287:, 61 (2005).

2004

55.The role of dipolar interactions in AFC-media
A. Berger, A. Moser, and D.T. Margulies
IEEE Trans. Magn. 40, 2437 (2004).
54.The origin of signal-to-noise ratio improvements in laminated recording media
D.T. Margulies, M.E. Schabes, N. Supper, H. Do, A. Berger, A. Moser, P.M. Rice, P. Arnett, M. Madison, B. Lengsfield, H. Rosen, and E.E. Fullerton
Appl. Phys. Lett. 85, 6200 (2004).
53.Biquadratic coupling in antiferromagnetically coupled magnetic recording media
A. Moser, A. Berger, D.T. Margulies, and E.E. Fullerton
J. Appl. Phys. 95, 6657 (2004).
52.Track width study of E-beam defined GMR read heads on longitudinal and perpendicular media
C. Tsang, S. Macdonald, G. Samadi, J. Katine, M. Cyrille, A. Driskill-smith, M. Ho, J. Moore, W. Weresin, P. Arnett, E. Marinero, D. Druist, M. Pinarbasi, A. Polcyn, K. Takano, Y. Ikeda, H. Do, M. Best, and A. Moser
IEEE Trans. Magn. 40, 295 (2004).

2003

51.Patterned perpendicular and longitudinal media: A magnetic recording study
M. Albrecht, S. Ganesan, C.T. Rettner, A. Moser, M.E. Best, R.L. White, and B.D. Terris
IEEE Trans. Magn. 39, 2323 (2003).
50.Tera-Storage recording: soon reality or fiction? (Tera-Bit Speicher: bald Realitaet oder nur Fiktion?)
M. Albrecht, J.U. Thiele, and A. Moser
Physik Journal 2 10, 25 (2003).
49.Antiferromagnetically coupled magnetic recording media
E.E. Fullerton, D.T. Margulies, N. Supper, H. Do, M. Schabes, A. Berger, and A. Moser
IEEE Trans. Magn. 39, 639 (2003).
48.Magnetic property control by using a composite template for dual-layered perpendicular media
Y. Ikeda, K. Takano, H. Do, N. Supper, A. Moser, Y. Sonobe, and P. Rice
J. Appl. Phys. 93, 6769 (2003).
47.The energy barriers in antiferromagnetically coupled media
D.T. Margulies, A. Berger, A. Moser, M.E. Schabes, and E.E. Fullerton
Appl. Phys. Lett. 82, 3701 (2003).
46.Magnetic tuning of biquadratic exchange coupling in magnetic thin films
A. Moser, A. Berger, D.T. Margulies, and E.E. Fullerton
Phys. Rev. Lett. 91, 097203 (2003).

2002

45.Writing of high density patterned perpendicular media with a conventional longitudinal recording head
M. Albrecht, A. Moser, C.T. Rettner, S. Anders, T. Thomson, B.D. Terris
Appl. Phys. Lett. 80, 3409 (2002).
44.Thermal stability and recording properties of sub-100 nm patterned CoCrPt perpendicular media
M. Albrecht, S. Anders, T. Thomson, C.T. Rettner, M.E. Best, A. Moser, B.D. Terris
J. Appl. Phys. 91, 6845 (2002).
43.Recording performance of high-density patterned perpendicular magnetic media
M. Albrecht, C.T. Rettner, A. Moser, M.E. Best, B.D. Terris
Appl. Phys. Lett. 81, 2875 (2002).
42.Thermal activation and reversal time in antiferromagnetically coupled media
D.T. Margulies, A. Moser, M.E. Schabes, and E.E. Fullerton
Appl. Phys. Lett. 81, 4631 (2002).
41.Magnetic recording: advancing into the future
A. Moser, K. Takano, D.T. Margulies, M. Albrecht, Y. Sonobe, Y. Ikeda, S.H. Sun, E.E. Fullerton
J. Phys. D: Appl. Phys. 35, R157 (2002).
40.Signal decay and amplitude measurements of antiferromagnetically coupled magnetic recording media
A. Moser, D.T. Margulies, C.T. Rettner, E.E. Fullerton
Appl. Phys. Lett. 81, 2815 (2002).
39.Thermal relaxation in antiferromagnetically coupled granular magnetic media - art. no. 092410
A. Moser, D.T. Margulies, E.E. Fullerton
Phys. Rev. B 66, 2410 (2002).
38.Coupled granular/continuous perpendicular recording media with soft magnetic underlayer
Y. Sonobe, H. Muraoka, K. Miura, Y. Nakamura, K. Takano, H. Do, A. Moser, B.K. Yen, Y. Ikeda, N. Supper
J. Appl. Phys. 91, 8055 (2002).
37.Thermally stable CGC perpendicular recording media with Pt rich CoPtCr and thin Pt layers
Y. Sonobe, H. Muraoka, K. Miura, Y. Nakamura, K. Takano, A. Moser, H. Do, B.K. Yen, Y. Ikeda, N. Supper, W. Weresin
IEEE Trans. Magn. 38, 2006 (2002).

2001

36.Advanced magnetic recording media for high density data storage
E.E. Fullerton, D.T. Margulies, A. Moser, and K. Takano
Solid State Technol. 44, 87-8, 91 (2001).
35.Writing and reading perpendicular magnetic recording media patterned by a focused ion beam
J. Lohau, A. Moser, C.T. Rettner, M.E. Best, and B.D. Terris
Appl. Phys. Lett. 78, 990 (2001).
34.Dynamic coercivity measurements of antiferromagnetically coupled magnetic media layers
J. Lohau, A. Moser, D.T. Margulies, E.E. Fullerton, M.E. Schabes
Appl. Phys. Lett. 78, 2748 (2001).
33.Effect of ion beam patterning on the write and read performance of perpendicular granular recording media
J. Lohau, A. Moser, C.T. Rettner, M.E. Best, and B.D. Terris
IEEE Trans. Magn. 37, 1652 (2001).
32.Transition position jitter in longitudinal magnetic recording media
A. Moser, K.A. Rubin, and M.E. Best
IEEE Trans. Magn. 37, 1872 (2001).
31.MOKE spectra and ultrahigh density data storage perspective of FePt nanomagnet arrays
D. Weller, S. Sun, C. Murray, L. Folks, and A. Moser
IEEE Trans. Magn. 37, 2185 (2001).

2000

30.Antiferromagnetically coupled magnetic media layers for thermally stable high density recording
E.E. Fullerton, D.T. Margulies, M.E. Schabes, M. Carey, B. Gurney, A. Moser, M. Best, G. Zeltzer, K. Rubin, H. Rosen, M.A. Doerner
Appl. Phys. Lett. 77, 3806 (2000).
29.Design tradeoffs for beyond 20 Gb/in.2: Using a merged notched head on advanced low noise media
M. Madison, T. Arnoldussen, M. Pinarbasi, M. Parker, M. Doerner, C.S. Bhatia, D. Call, J. Li, L. Dorius, K. Tang, L. Ingall, E. Lee, S. Yuan, R. Schwenker, J. Tabib, L. Lauchlan, J. Raniseski, R. Smith, W.C. Hsiao, T. Lin, D. Mauri, H. Zolla, E. Marinero, D. Margulies, K. Rubin, E. Fullerton, D. Weller, A. Moser
J. Appl. Phys. 87, 4996 (2000).
28.Determination of average demagnetizing fields in longitudinal magnetic recording using nanosecond field pulses
A. Moser, D. Weller, N.D. Rizzo, and T.J. Silva
Appl. Phys. Lett. 77, 1505 (2000).
27.Writing and detecting bits at 100 Gbit/in2 in longitudinal magnetic recording media
A. Moser, C.T. Rettner, M.E. Best, E.E. Fullerton, D. Weller, M. Parker, and M.F. Doerner
IEEE Trans. Magn. 36, 2137 (2000).
26.Monodisperse FePt nanoparticles and ferromagnetic FePt nanocrystal superlattices
S. Sun, C.B. Murray, D. Weller, L. Folks, and A. Moser
Science 287, 1989 (2000).
25.High Ku materials approach to 100 Gbits/in2
D. Weller, A. Moser, L. Folks, M.E. Best, Wen Lee, M.F. Toney, M. Schwickert, J.U. Thiele, and M.F. Doerner
IEEE Trans. Magn. 36, 10 (2000).

1999

24.A low temperature ultrahigh vacuum scanning force microscope
H.J. Hug, B. Stiefel, P.J.A. van Schendel, A. Moser, S. Martin, H.J. Guntherodt
Rev. Sci. Instrum. 70, 3625 (1999).
23.Dynamic coercivity measurements in thin film recording media using a contact write/read tester
A. Moser, D. Weller, M.E. Best, and M.F. Doerner
J. Appl. Phys. 85, 5018 (1999).
22.Thermal stability of longitudinal magnetic recording media
A. Moser, D. Weller, and M.F. Doerner
Appl. Phys. Lett. 75, 1604 (1999).
21.Thermal processes and stability of longitudinal magnetic recording media
A. Moser, and D. Weller
IEEE Trans. Magn. 35, 2808 (1999).
20.Thermal effect limits in ultrahigh density magnetic recording
D. Weller, and A. Moser
IEEE Trans. Magn. 35, 4423 (1999).
19.Nanocomposite CoPt:C films for extremely high density recording
M. Yu, Y. Liu, A. Moser, D. Weller, and D.J. Sellmyer
Appl. Phys. Lett. 75, 3992 (1999).

1998

18.Comparing the resolution of magnetic force microscopes using the CAMST reference samples
L. Abelmann, S. Porthun, M. Haast, C. Lodder, A. Moser, M.E. Best, P.J.A. van Schendel, B. Stiefel, H.J. Hug, G.P. Heydon, A. Farley, S.R. Hoon, T. Pfaffelhuber, R. Proksch, and K. Babcock
J. Magn. Magn. Mater. 190, 135 (1998).
17.Quantitative magnetic force microscopy on perpendicularly magnetized samples
H.J. Hug, B. Stiefel, P.J.A. Van Schendel, A. Moser, R. Hofer, S. Martin, H.J. Guntherodt, S. Porthun, L. Abelmann, J.C. Lodder, G. Bochi, R.C. O'Handley
J. Appl. Phys. 83, 5609 (1998).
16.Anisotropy design in magnetic media: A micromagnetics study
J.H. Kaufman, T. Koehler, A. Moser, D. Weller, and B. Jones
J. Appl. Phys. 83, 6489 (1998).
15.Low temperature magnetic force microscopy on YBa2Cu3O7- delta thin films
A. Moser, H.J. Hug, B. Stiefel, and H.J. Guntherodt
J. Magn. Magn. Mater. 190, 114 (1998).

1996

14.Magnetic domain structure in ultrathin Cu/Ni/Cu/Si(001) films
H.J. Hug, B. Stiefel, A. Moser, I. Parashikov, A. Klicznik, D. Lipp, H.J. Guntherodt, G. Bochi, D.I. Paul, R.C. O`Handley
J. Appl. Phys. 79, 5609 (1996).

1995

13.Magnetic domain-structure in ultrathin films
G. Bochi, H.J. Hug, D.I. Paul, B. Stiefel, A. Moser, I. Parashikov, H.J. Guntherodt, and R.C. Ohandley
Phys. Rev. Lett. 75, 1839 (1995).
12.Perpendicular magnetic anisotropy, domains, and misfit strain in epitaxial Ni/Cu1-xNix/Cu/Si (001) thin films
G. Bochi, C.A. Ballentine, H.E. Inglefield, C.V. Thompson, R.C. O'Handley, H.J. Hug, B. Stiefel, A. Moser, H.J. Guntherodt
Phys. Rev. B, Condens. Matter 52, 7311 (1995).
11.Observation of single vortices condensed into a vortex glass phase by magnetic force microscopy
A. Moser, H.J. Hug, I. Parashikov, B. Stiefel, O. Fritz, H. Thomas, A. Baratoff, H.J. Guntherodt, P. Chaudhari
Phys. Rev. Lett. 74, 1847 (1995).
10.Low temperature scanning force microscope
H.J. Hug, A. Moser, O. Fritz, B. Stiefel, and I. Parashikov
Forces in Scanning Probe Methods, H.J. Guentherodt et al (eds), Kluwer Academic Publishers , 35 - 62 (1995).

1994

9.Observation and manipulation of vortices in YBa2Cu3O7 thin film with a low temperature magnetic force microscope
H.J. Hug, A. Moser, I. Parashikov, B. Stiefel, O. Fritz, H.J. Guntherodt, H. Thomas
Physica C 235-240, 2695 (1994).
8.Application of MHz frequency detection to noncontact scanning force microscopy
H.J. Hug, A. Moser, D. Weller, I. Parashikov, A. Tonin, H.R. Hidber, H.J. Guntherodt
J. Vac. Sci. Technol. B, Microelectron. Nanometer Struct. 12, 1591 (1994).
7.Low temperature magnetic force microscopy on high Tc-superconductors
H.J. Hug, A. Moser, O. Fritz, I. Parashikov, H. Guntherodt, Th. J. Wolf
Physica B ol.194-196, 377 (1994).
6.Magnetic force microscopy on high Tc superconductors
A. Moser, H.J. Hug, O. Fritz, I. Parashikov, H. Guntherodt, T. J. Wolf
J. Vac. Sci. Technol. B, Microelectron. Nanometer Struct. 12, 1586 (1994).

1993

5.Scanning probe microscopy for industrial applications: selected examples
U. Dammer, D. Anselmetti, M. Dreier, J. Frommer, J. Funfschilling, G. Gerth, H.J. Guntherodt, H. Haefke, H.R. Hidber, L. Howald, H.J. Hug, T.H. Jung, H.P. Lang, R. Luthi, E. Meyer, A. Moser, I. Parashikov, P. Reimann, T. Richmond, M. Ruetschi, H. Rudin, U.D. Schwarz, U. Staufer, R. Sum
Scanning 15, 257 (1993).
4.Low temperature magnetic force microscopy
H.J. Hug, A. Moser, Th. Jung, O. Fritz, A. Wadas, I. Parashikov, H.J. Guntherodt
Rev. Sci. Instrum. 64, 2920 (1993).
3.A miniature fibre optic force microscope scan head
A. Moser, H.J. Hug, T. Jung, U.D. Schwarz, H. Guntherodt
Measurement Science & Technology 4, 769 (1993).
2.Domain structure of Ba ferrite observed by tunneling stabilized magnetic force microscopy
A. Wadas, H.J. Hug, A. Moser, and H.J. Guntherodt
J. Magn. Magn. Mater. 120, 379 (1993).

1992

1.The atomic force microscope used as a powerful tool for machining surfaces
T.A. Jung, A. Moser, H.J. Hug, D. Brodbeck, R. Hofer, H.R. Hidber, and U.D. Schwarz
Ultramicroscopy 42:, 1446 (1992).