Publications

Displaying 1 - 25 of 261

Understanding Early Failure Behavior In 3D-Interconnects 2: Empirical Modeling of Broadband Signal Losses In TSV-Enabled Interconnects

November 29, 2024

Author(s)

Kevin J. Coakley, Pavel Kabos, Stephane Moreau, Yaw S. Obeng

We present empirical models for measured frequency-dependent insertion loss (|S21|) in a prototypical TSV enabled 3D-IC from SEMATECH. The model parameters are determined with a stochastic optimization implementation of the Levenberg-Marquardt method. We

Nonlinear excitations in ferrites

November 22, 2022

Author(s)

Pavel Kabos

This book chapter describes the processes leading to nonlinear excitations in ferrites at high power levels. We start from equation of motion that include nonlinear terms leading to nonlinear processes. First and second order Suhl instabilities for

Understanding Early Failure Behavior In 3D-Interconnects: Empirical Modeling of Broadband Signal Losses In TSV-Enabled Interconnects

November 1, 2022

Author(s)

Yaw S. Obeng, Kevin J. Coakley, Pavel Kabos, Stephane Moreau

We develop an empirical model for measured frequency-dependent insertion loss (|S21|). The model parameters are determined with a stochastic optimization implementation of the Leven-berg-Marquard method. We compare measured |S21| on TSV-interconnects from

Direct Growth and Fabrication of Tungsten Coated GaN Nanowire Probes on Cantilevers for Scanning Probe Microscopy

May 13, 2022

Author(s)

Kristen Genter, Matthew Brubaker, Samuel Berweger, Jonas Gertsch, Kris A. Bertness, Pavel Kabos, Victor Bright

Gallium nitride nanowires (NWs) grown on silicon-on-insulator wafers by means of selective area epitaxy are directly integrated into scanning probe cantilever fabrication. These cantilevers with NW probe tips are coated with tungsten by atomic layer

Quantum phase modulation with acoustic cavities and quantum dots

April 29, 2022

Author(s)

Poolad Imany, Zixuan Wang, Ryan DeCrescent, Robert Boutelle, Corey McDonald, Travis Autry, Samuel Berweger, Pavel Kabos, Sae Woo Nam, Richard Mirin, Kevin L. Silverman

Fast, efficient, and low-power modulation of light at microwave frequencies is crucial for chip-scale classical and quantum processing as well as for long-range networks of superconducting quantum processors. A successful approach to bridge the gap between

Nanoscale Photoexcited Carrier Dynamics in Perovskites

March 8, 2022

Author(s)

Samuel Berweger, Fei Zhang, Bryon Larson, Andrew Ferguson, Axel Palmstrom, Obadiah Reid, Thomas Mitchell (Mitch) Wallis, Kai Zhu, Joseph Berry, Pavel Kabos, Sanjini Nanayakkara

The excellent optoelectronic properties of lead-halide perovskite thin films are complemented by their tolerance to broad compositional variations and associated strain, which allows tuning of desired properties such as the optical bandgap. On the other

Imaging of Magnetic Excitations in Nanostructures with Microwave Near-Field Microscopy

November 25, 2021

Author(s)

Samuel Berweger, Robert Tyrrell-Ead, Houchen Chang, Mingzhong Wu, Hong Tang, Hans Nembach, Karl Stupic, Stephen E. Russek, Thomas Mitchell (Mitch) Wallis, Pavel Kabos

We present images of spin-wave excitations in a patterned yttrium iron garnet (YIG) thin film obtained by use of near-field microwave microscopy, which can achieve spatial resolution as high as 50 nm. Visualization of magnetic excitations is an enticing

Determination ofeffective magnetizationand gyromagnetic ratio ofyttrium iron garnetfrom multi-modeferromagnetic resonanceS21 spectra

April 27, 2021

Author(s)

Kevin Coakley, Pavel Kabos, Scooter D. Johnson

We acquire ferromagnetic resonance spectra for an out-of-plane magnetized yttrium iron garnet sample with a vector network analyzer at microwave frequencies ranging from 4.2 GHz to 5.2 GHz. The applied static magnetic field varies from approximately 253.6

Spatially Resolved Photoconductivity in WS2/MoS2 lateral heterostructures

April 27, 2021

Author(s)

Samuel Berweger, Hanyu Zhang, Prasana Sahoo, Benjamin Kupp, Jeffrey Blackburn, Elisa Miller, Thomas Mitchell (Mitch) Wallis, Dmitri Voronine, Pavel Kabos, Sanjini Nanayakkara

The optical and electronic properties of 2D semiconductors are intrinsically linked via the strong interactions between optically excited bound species and free carriers. Here we use near-field scanning microwave microscopy (SMM) to image spatial

Electrostatic tip effects in scanning probe microscopies

February 19, 2021

Author(s)

Clayton Casper, Earl Richie, Taylor Teitsworth, Pavel Kabos, James Cahoon, Samuel Berweger, Joanna Atkin

Microscopic Origin of Inhomogeneous Transport in Four-Terminal Tellurene Devices

December 22, 2020

Author(s)

Benjamin Kupp, Gang Qiu, Yixiu Wang, Clayton Caspeer, Thomas Mitchell (Mitch) Wallis, Joanna Atkin, Wenzhuo Wu, Peide Ye, Pavel Kabos, Samuel Berweger

Tellurene—the 2D form of elemental tellurium—provides an attractive alternative to conventional 2D semiconductors due to its high bipolar mobilities, facile solution processing, and the possibility of dopant intercalation into its 1D van der Waals lattice

Nanoelectronic Characterization using Microwave Near-Field Microscopy

September 4, 2020

Author(s)

Samuel Berweger, Thomas Mitchell (Mitch) Wallis, Pavel Kabos

Imaging Carrier Inhomogeneities in Ambipolar Tellurene Field Effect Transistors

February 12, 2020

Author(s)

Samuel Berweger, Gang Qiu, Yixiu Wang, Benjamin Pollard, Kristen Genter, Thomas Mitchell (Mitch) Wallis, Wenzhuo Wu, Peide Ye, Pavel Kabos

Bipolar transport underpins a wide range of semiconductor homojunction device functionalities such as pn junctions or transistors. The capability to image and understand spatial inhomogeneities un carrier type and the conductivity associated with each

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