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Search Publications by: Pavel Kabos (Fed)

Displaying 226 - 250 of 261

Dynamic Constitutive Relations for Polarization and magnetization

October 1, 2001

Author(s)

James R. Baker-Jarvis, Pavel Kabos

New engineered artificial and metamaterials combine ferroelectrics, ferrites, wires, resonant rings, and ferromagnetic materials to obtain a desired response. In this paper we develop constitute relations for materials where the magnetization and

Control of Magnetization Dynamics in Ni 81 Fe 19 Thin Films Through the Use of Rare-Earth Dopants

July 1, 2001

Author(s)

William E. Bailey, Pavel Kabos, Fred B. Mancoff, Stephen E. Russek

High Frequency Measurements of CoFeHfO Thin Films

July 1, 2001

Author(s)

Stephen E. Russek, Pavel Kabos, Thomas J. Silva, Fred B. Mancoff, D Wang, Z. T. Qian, J. M. Daughton

High frequency measurements of the transverse susceptibility and damping constant of CoFeHfo thin films have been made over a frequency range of 0.1 GHz to 6 GHz as a function of film resistivity, thickness, and temperature. The films show relatively low

Micromechanical Torque Magnetometer for In Situ Thin-film Measurements

July 1, 2001

Author(s)

John M. Moreland, Albrecht Jander, James A. Beall, Pavel Kabos, Stephen E. Russek

We describe a new type of magnetometer based on a microelectromechanical system (MEMS) for in situ monitoring of magnetic film moment during the film deposition process. The magnetometer measured mechanical torque on a film as it is deposited onto a

Micromechanical Detectors for Local Field Measurements Based on Ferromagnetic Resonance

June 1, 2001

Author(s)

Albrecht Jander, John M. Moreland, Pavel Kabos

Ferromagnetic resonance (FMR) measurements were performed on micron-size thin-film samples integrated onto a micromechanical detector. The FMR response is coupled to cantilever motion in one of three ways. 1) Measure the change in torque on the sample in a

Angular Momentum and Energy Transferred Through Ferromagnetic Resonance

April 1, 2001

Author(s)

Albrecht Jander, John M. Moreland, Pavel Kabos

Dielectric Properties of Materials for Packaging from 1 to 60 GHz

March 26, 2001

Author(s)

Y. Kantor, Michael D. Janezic, Pavel Kabos, Billy F. Riddle, James R. Baker-Jarvis

Measurements of the complex permittivity of commonly used packaging materials, as a function of temperature, in the frequency range of 1-60 GHz are presented. The results were obtained using a re-entrant cavity, a split cylinder cavity, a split post

Metastable States in Large Angle Magnetization Rotations

September 1, 2000

Author(s)

Pavel Kabos, Shehzaad F. Kaka, Stephen E. Russek, Thomas J. Silva

Large angle rotations were studied in Permalloy thin films and spin valve devices. It is shown that edge effects or inhomogeneities strongly influence the magnetization behavior under certain initial conditions. Complicated intermediate states can form

Micromechanical Detectors for Ferromagnetic Resonance Spectroscopy

September 1, 2000

Author(s)

John M. Moreland, Pavel Kabos, Albrecht Jander, M. Loehndorf, Robert McMichael, C G. Lee

We demonstrate micromechanical detection of ferromagnetic resonance (FMR) in thin magnetic films. FMR spectroscopy is performed on nanometer scale samples integrated with a micromachined silicon cantilever. We present several techniques by which the FMR

Ferromagnetic Resonance Spectroscopy with a Micromechanical Calorimeter Sensor

August 1, 2000

Author(s)

John M. Moreland, M. Loehndorf, Pavel Kabos, Robert McMichael

We describe a new type of ferromagnetic resonance (FMR) spectroscopy that is based on a calorimeter sensor. We use an atomic force microscopy cantilever coated with a ferromagnetic thin film as a bimaterial sensor to measure absorption of microwaves at 9

Frequency- and Time-resolved measurements of FeTaN Films with Longitudinal Bias Field

May 1, 2000

Author(s)

C. Alexander, J. Rantschler, Thomas J. Silva, Pavel Kabos

Vectorial second-harmonic magneto-optic kerr effect measurement

May 1, 2000

Author(s)

Pavel Kabos, Anthony B. Kos, Thomas J. Silva

A significant modification of an existing experimental technique based on the second-harmonic magneto-optical Kerr effect (SH-MOKE) is introduced. With a p-polarized pumping optical wave incident upon a magnetic film, the transverse component of

Coherent Control of Precessional Dynamics in Thin Film Permalloy

April 1, 2000

Author(s)

T. M. Crawford, Pavel Kabos, Thomas J. Silva

We demonstrate a method of eliminating overshoot and ringing in magnetizaiton dynamics when the system bandwidth includes the intrinsic ferromagnetic resonance (FMR). The method employsstaggered step excitation for the cancellation of FMR oscillations