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Jason Walter Sidabras

from Milwaukee, WI
Age ~42
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Also known as:
Jason W Sidabras, Sidabras W Sidabras, Jason S
Phone and address:
2015 N 72Nd St, Milwaukee, WI 53213
Related to:
William MartinMary WilliamsMary P Peretti, 58Nancy F Martin, 62Todd Martin, 59
Connected to:
David Sidabutar, 50Gracia C Sidabutar, 39Annupreet Sidana, 63Nikita Sidana, 32Jill C Sidange, 50Dima S Sidani, 42Marwa Sidani, 42Keomani B Sidara, 30Lisa J Sidaras, 63Darlene J Sidari, 74

Jason Sidabras Phones & Addresses

  • 2015 N 72Nd St, Milwaukee, WI 53213
  • 4740 N Idlewild Ave, Milwaukee, WI 53211
  • 1858 Commerce St, Milwaukee, WI 53212 (414) 372-7758
  • Wauwatosa, WI
  • 928 35Th St, Chicago, IL 60609 (773) 247-1552
  • 928 W 35Th Pl, Chicago, IL 60609

Work

Company: Medical college of wisconsin Position: Microwave engineer

Education

Degree: EECE School / High School: Marquette University 2005 to 2009 Specialities: Masters

Industries

Research

Resumes

Resumes

Jason Sidabras Photo 1

Microwave Engineer At Medical College Of Wisconsin

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Position:
Microwave Engineer at Medical College of Wisconsin
Location:
Greater Milwaukee Area
Industry:
Research
Work:
Medical College of Wisconsin
Microwave Engineer
Education:
Marquette University 2005 - 2009
EECE, Masters Milwaukee School of Engineering 1999 - 2003

Publications

Us Patents

Aqueous Sample Holder For Epr And Mr Spectroscopy

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US Patent:
20050017720, Jan 27, 2005
Filed:
Jul 23, 2004
Appl. No.:
10/898120
Inventors:
Richard Mett - Cedarburg WI, US
James Hyde - Dousman WI, US
Jason Sidabras - Milwaukee WI, US
International Classification:
G01V003/00
US Classification:
324321000
Abstract:
A sample holder for use in an EPR spectrometer is extruded using a material having a low dielectric constant. The extruded sample holder has a plurality of channels formed in it for holding sample material for testing. The shape and orientation of these channels are such that losses due to the high dielectric constant of the sample are minimized. Sample holders for cylindrical and rectangular cavity resonators and uniform field cavity resonators are disclosed, as well as for two-gap and four-gap loop-gap resonators.

Coil System And Method For Post-Exposure Dosimetry Using Electron Paramagnetic Resonance Spectroscopy

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US Patent:
20120112746, May 10, 2012
Filed:
Aug 25, 2010
Appl. No.:
12/868244
Inventors:
James S. Hyde - Dousman WI, US
Jason W. Sidabras - Milwaukee WI, US
Richard R. Mett - Cedarburg WI, US
International Classification:
H01J 49/00
US Classification:
324316
Abstract:
An apparatus and method for triaging patients according to radiation exposure operates by measuring electron paramagnetic resonance spectra of fingernails, toenails, and/or teeth. A coil structure allows in vivo measurement of tooth enamel or fingernail keratin with reduced coupling to underlying tissue.

Strongly Coupled Fourth-Order Resonance Coil Systems For Enhanced Signal Detection

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US Patent:
20210286032, Sep 16, 2021
Filed:
Sep 18, 2017
Appl. No.:
16/334505
Inventors:
- Milwaukee WI, US
James S. HYDE - Dousman WI, US
Jason W. SIDABRAS - Milwaukee WI, US
International Classification:
G01R 33/36
G01R 33/3415
Abstract:
A resonant coil system with improved sensitivity and signal-to-noise performance is described. A primary coil is tuned to a first resonance frequency and inductively coupled to a secondary coil that is separately tuned to a second resonance frequency. The primary and secondary coils form a resonant system with a resonance frequency that is a function of the primary and secondary coil resonance frequencies. The resonance frequency of the coil system is less than both the primary resonance frequency and the secondary resonance frequency. The mutual inductance between the two coils is high and the resonance frequency of the coil system's parallel mode is well separated from that of the anti-parallel mode.

High Q-Factor Magnetic Resonance Imaging Radio Frequency Coil Device And Methods

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US Patent:
20180340991, Nov 29, 2018
Filed:
Nov 20, 2015
Appl. No.:
15/528447
Inventors:
- MLWAUKEE WI, US
James Stuart Hyde - Dousman WI, US
Jason Walter Sidabras - Milwaukee WI, US
International Classification:
G01R 33/341
G01R 33/34
Abstract:
High Q-value radio frequency (RF] coils are described. In general, the RF coils include multiple conductor layers that at least partially overlap to define a capacitive region that equalizes current flowing in each conductor. In some instances, the RF coil includes sets of layered conductors, where each set of layered conductors overlaps in an overlap region. In some other instances, the RF coil includes a spiraled conductor coupled to a dielectric material, where the number of turns of the spiral defines the overlap area. Multiple spiraled conductors can be interleaved. An equalization coil can also be provided to equalize currents along an axial dimension of each conductor in such RF coils. The thickness of the conductors is less than three skin depths, and preferably less than one skin depth, to overcome skin-depth limitations.
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Jason Walter Sidabras from Milwaukee, WI, age ~42 Get Report