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Jeff Lindemuth

Senior Application Scientist

There are a lot of changes coming for materials research in the near future. The distinction between electronic materials and biological materials is becoming less and less evident, and as researchers blend the two together they will need new, more advanced measurement techniques. I expect to see this happening in all branches of the industry, from renewable energy to communications and computing, and I’m excited to see what new possibilities that presents for Lake Shore.

 

Jeff Lindemuth

Dr. Jeffrey Lindemuth is a Senior Scientist with Lake Shore. He received his BSc in Physics from Penn State University and his PhD in High Energy Physics from the College of William and Mary in 1982, where his research concentrated on the study of weak and strong interactions through the measurements of exotic atom x-rays. Before Lake Shore, Dr. Lindemuth was with EG&G Princeton Applied Research, concentrating on computer-aided measurements and data analysis for electrochemistry, optical spectroscopy, fiber optics, magnetic materials, and high-speed electronics. He later became Director of R&D for the company. Since joining Lake Shore in 1993, his focus has been in the development of magnetic measurement systems, including VSMs and AC susceptibility measurements as well as Hall systems and data analysis. In addition, Dr. Lindemuth performs application training, working closely with customers to help them better understand the measurements obtained from their VSM and Hall systems. He is widely recognized as an expert in instrumentation and methods for Hall measurements, particularly in semiconductor materials. For more about Dr. Lindemuth’s work, read this Q&A from our blog.

Publications

Comparative Analysis of Hole Transport in Compressively Strained InSb and Ge Quantum Well Heterostructures
A. Agrawal, M. Barth, H. Madan, Y. J. Lee, Y. R. Lin, C. H. Wu, C. H. Ko, and C. H. Wann, Applied Physics Letters 105 (5), 052102.

An Inversion Layer at the Surface of N-Type Iron Pyrite
M. Limpinsel, N. Farhi, N. Berry, J. Lindemuth, C. L. Perkins, Q. Lin, and M. Law, Energy & Environmental Science 7 (6), 1974 – 1989.

Electronic Transport Characterization of BiVO4 Using AC Field Hall Technique
J. Lindemuth, A. J. E. Rettie, L. G. Marshall, J. Zhou, and C. B. Mullins, MRS Proceedings 1633, mrsf13-1633-r02-05.

Combined Charge Carrier Transport and Photoelectrochemical Characterization of BiVO4 Single Crystals: Intrinsic Behavior of a Complex Metal Oxide
A. J. E. Rettie, H. C. Lee, L. G. Marshall, J. F. Lin, C. Capan, and J. Lindemuth, Journal of the American Chemical Society 135 (30), 11389 – 1139.

Optimized Electronic Transport Measurements in Titanium Oxide
J. Lindemuth, APS Meeting Abstracts 1, 38006.

Variable Temperature Hall Measurements on Low-Mobility Materials
J. Lindemuth, SPIE Solar Energy+ Technology, 84700G-84700G-9.

Hall Measurements on Low-Mobility Materials and High Resistivity Materials
J. Lindemuth and S. I. Mizuta, Thin Film Solar a Technology III, 81100I-81100I-7.

Enhancement-Mode Antimonide Quantum-Well MOSFETs With High Electron Mobility and Gigahertz Small-Signal Switching Performance
H. Madan, A. Agrawal, R. I., M. R., B. J. B., B. B. R., L. J., and D. S., IEEE Electron Devices Letters 32 (12), 1689 – 1691.

Variable Temperature Measurements in Cryogenic Probe Stations
J. Lindemuth, Frontiers of Characterization and Metrology for Nanoelectronics: 2009 1173.

Variable Temperature Measurements in Cryogenic Probe Stations; Measurements with Magnetic Fields
J. Lindemuth, APS Meeting Abstracts 1, 27010.

In-situ Broadband Microwave Calibrations and Measurements Using Cryogenic Probe Stations
J. Lindemuth and S. Yano, APS Meeting Abstracts 1, 36013.

Parallel Conduction in Semiconductors
J. R. Lindemuth, III-Vs Review 19 (9), 28 – 32.

Carrier Compensation and Scattering Mechanisms in Si-doped InAsyP1—y Layers Grown on InP Substrates Using Intermediate InAsyP1—y Step-Graded Buffers
M. K. Hudait, Y. Lin, P. M. Sinha, J. R. Lindemuth, and S. A. Ringel, Journal of Applied Physics 100 (6), 063705.

Measurement of the Magnetic Properties of Double-Layered PMRM Using an AHE Magnetometer
J. Lindemuth and B. Dodrill, Magnetics, IEEE Transactions on 40 (4), 2191 – 2193.

Anomalous Hall Effect Magnetometry Studies of Magnetization Processes of Thin Films
J. R. Lindemuth and B. C. Dodrill, Journal of Magnetism and Magnetic Materials 272, 2324 – 2325.

Comment on Mobility Spectrum Computational Analysis Using a Maximum Entropy Approach
J. Antoszewski, D. Redfern, L. Faraone, J. R. Meyer, and I. Vurgaftman, Physical Review E 69 (3), 038701.

Characterizing Multi-Carrier Devices with Quantitative Mobility Spectrum Analysis and Variable Field Hall Measurements
G. Du, J. R. Lindemuth, B. C. Dodrill, R. Sandhu, M. Wojtowicz, and M. S. Goorsky, Japanese Journal of Applied Physics 41 (2S), 1055.

Extraction of Low Mobility, Low Conductivity Carriers from Field Dependent Hall Data
J. Lindemuth, B. Dodrill, J. Meyer, and I. Vurgaftman.

Finite Sample Size Effects on the Calibration of Vibrating Sample Magnetometer
J. Lindemuth, J. Krause, and B. Dodrill, Magnetics, IEEE Transactions on 37 (4), 2752 – 2754.

Electronic Transport Characterization of HEMT Structures
B. J. Kelley, B. C. Dodrill, J. R. Lindemuth, G. Du, J. R. Meyer, and L. Faraone, Solid State Technology 43 (12), 130 – 134.

Quantitative Mobility Spectrum Analysis (QMSA) for Hall Characterization of Electrons and Holes in Anisotropic Bands
I. Vurgaftman, J. R. Meyer, C. A. Hoffman, S. Cho, J. B. Ketterson, and L. Faraone, Journal of Electronic Materials 28 (5), 548 – 552.

Improved Quantitative Mobility Spectrum Analysis for Hall Characterization
I. Vurgaftman, J. R. Meyer, C. A. Hoffman, D. Redfern, J. Antoszewski, Journal of Applied Physics 84 (9), 4966 – 4973.

Anisotropy Constants and Magnetic Torque Derived from Vector Vibrating Sample Magnetometry
J. R. Lindemuth, APS March Meeting Abstracts 1998.

A Permanent-Magnet Based Vector Vibrating Sample Magnetometer
B. C. Dodrill, J. R. Lindemuth, J. K. Krause, J. M. D. Coey, D. S. Hurely, and F. Bengrid, MMM-Intermag Conference, 1998. Abstracts., The 7th Joint, 33 – 33.

CONDENSED MATTER: Electrical and Magnetic Properties (PACS 71-76)
Improved Quantitative Mobility Spectrum Analysis for Hall Characterization – I. Vurgaftman, J. R. Meyer, C. A. Hoffman, D. Redfern, and J. Antoszewski, Journal of Applied Physics 84 (9), 4966 – 4973.

Evaluation of III-V Multilayer Transport Parameters Using Quantitative Mobility Spectrum Analysis
J. Antoszewski, J. M. Dell, L. Faraone, L. S. Tan, A. Raman, and S. J. Chua, Materials Science and Engineering: B 44 (1), 65 – 69.

Demonstration of Improved Quantitative Mobility Spectrum Analysis (i-QMSA)
I. Vurgaftman, J. R. Meyer, C. A. Hoffman, D. Redfern, and J. Antoszewski, MRS Proceedings 490, 245.

Simple And Inexpensive Method For Testing High Speed Semiconductor Devices Using Electro-Optics Sampling
K. W. Forsyth, R. S. Jones, and J. R. Lindemuth, Semiconductor Conferences, 352 – 356.

Optimal Performance of An Electro-Optical Sampler
J. Lindemuth, Semiconductor Conferences, 120 – 124.

Antiprotonic Atoms in Gaseous H 2 and He and in Liquid H 2
J. R. Lindemuth, M. Eckhause, K. L. Giovanetti, J. R. Kane, and M. S. Pandey, Physical Review C 30 (5), 1740.

Muon Hyperfine Fields in Fe (Al) Alloys
C. E. Stronach, W. J. Kossler, J. Lindemuth, K. G. Petzinger, and A. T. Fiory, Physical Review B 20 (6), 2315.

Diffusion and Trapping of Positive Muons in Al: Cu Alloys and In Deformed Al
W. J. Kossler, A. T. Fiory, W. F. Lankford, J. Lindemuth, K. G. Lynn, and S. Mahajan, Physical Review Letters 41 (22), 1558.

Dynamic Field on 40-MeV μ+ Traversing Magnetized Iron
J. M. Brennan, N. Benczer-Koller, M. Hass, W. J. Kossler, and J. Lindemuth, Physical Review B 18 (7), 3430.

Diffusion and Trapping of MU+ Particles in AL-CU Alloys
W. F. Lankford, W. J. Kossler, J. Lindemuth, and C. E. Stronach, Bulletin of the American Physical Society 23 (3), 361 – 361.

The Localization and Thermal Diffusion of Positive Muons in Niobium
W. F. Lankford, H. K. Birnbaum, A. T. Fiory, R. P. Minnich, K. G. Lynn, and C. E. Stronach, Hyperfine Interactions 4 (1-2), 833 – 837.

Dynamic Field on Fast MU+ in Iron
J. M. Brennan, M. Hass, N. Benczerkoller, J. Sak, and A. Fiory, Bulletin of the American Physical Society 23 (1), 65 – 66.

MU+ SR Measurement of Hyperfine Fields in Dilute FE (AL) Alloys
C. E. Stronach, A. T. Fiory, R. P. Minnich, W. J. Kossler, and J. Lindemuth, Bulletin of the American Physical Society 23 (3), 227 – 227.

The Effect of Air Resistance on Falling Balls
J. Lindemuth, American Journal of Physics 39 (7), 757 – 759.

Anisotropic Small-Polaron Hopping in W: BiVO4 Single Crystals
A. J. E. Rettie, W. D. Chemelewski, J. Lindemuth, J. S. McCloy, L. G. Marshall, J. Zhou, D. Emin, and C. B. Mullins, Applied Physics Letters, 106 (2), 022106, 2015.

Electronic Transport in Molybdenum Dioxide Thin Films
K. W. Harrison, C. D. Corolewski, M. D. McCluskey, J. Lindemuth, S. Ha, and M. G. Norton, Journal of Materials Science: Materials in Electronics, 2015.

Electrical and Magnetic Properties Modification in Heavy Ion Irradiated NixCo3-x)O4 Films
J. S. McCloy, W. Jiang, W. Bennett, M. H. Engelhard, J. Lindemuth, N. S. Parmar, and G. J. Exarhos, Journal of Physical Chemistry C, 119 (39), 22465 – 22476, 2015.