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DTSTAMP:20211211T063150Z
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DTSTART;TZID=US/Eastern:20210914T090000
DTEND;TZID=US/Eastern:20210914T220000
DESCRIPTION:The talk explores synergies between four pillars:\n\n- the scie
 nce of electromagnetic (EM) modeling\,\n- computer multiphysics simulation
 s of EM wave interactions with materials\,\n- modelling-based design of ap
 plicators for materials processing and characterization\,\n- joint applica
 tion of computer modeling and material measurements in emerging technologi
 es and green energy sectors.\n\nThe Speaker’s background and research fo
 llowing the above loop are summarised in the Speaker’s biography. The re
 sults of her doctoral studies have been amalgamated in QuickWave conformal
  FDTD simulator\, which continuously develops at QWED company co-founded a
 nd currently led by the Speaker. The software assists\, on the one hand\, 
 in the design of energy-efficient microwave applicators for high-quality h
 eating and microwavable food packages\, and on the other hand\, in the dev
 elopment of high-precision methods and test-fixtures for the characterizat
 ion of dielectric and conductive materials. Examples highlighted in the ta
 lk include:\n\n- Electromagnetic simulations and design of antennas\, for 
 space research (at NRAO and the ALMA project) and for 5G (with new functio
 nalities dedicated to steerable antenna arrays and multi-beam multi-band a
 ntenna systems\, taking into account variable material parameters).\n- Mul
 tiphysics simulations of domestic ovens loaded with foods\, demonstrating 
 the relationships between the FDTD and FEM methods and their different imp
 lementations\, based on the Speaker’s contributions to the recent Elsevi
 er book\, with real-life examples courtesy of Whirlpool Corporation and BS
 H Haugerate GmbH.\n- Modeling-based measurement techniques for 5G material
 s\, with round-robin testing of commercially available techniques (includi
 ng those from QWED) in the iNEMI 5G initiative.\n- Modeling-based imaging 
 techniques for organic semiconductors and graphene anodes\, developed by Q
 WED in the European H2020-Framework MMAMA and NanoBat consortia.\n\nWe con
 clude with an outlook to new developments in materials modeling and charac
 terization\, conducted within the H2020 NanoBat project and the European M
 aterials Modelling (EMMC) and Characterisation (EMCC) Councils.\n\nCo-spon
 sored by: IEEE North Jersey Section MTT/AP Joint Chapter\n\nSpeaker(s): Dr
 . Małgorzata Celuch\, Josep Miquel Jornet\n\nAgenda: \nPlease register us
 ing the link: ([Register now](https://event.on24.com/wcc/r/3163872/410F3FD
 4F4E9DEACF2EB4D38E8CD0AC3))\n\nTitle: Modelling-Based Characterisation of 
 Materials for Application in 5G and Energy Sectors\n\nDate: Tuesday\, Sept
 ember 14\, 2021\n\nTime: 09:00 AM Eastern Daylight Time\n\nDuration: 1 hou
 r\n\nBldg: Remote-Anywhere\, Virtual\, Virtual\, New Jersey\, United State
 s
LOCATION:Bldg: Remote-Anywhere\, Virtual\, Virtual\, New Jersey\, United St
 ates
ORGANIZER:akpoddar@ieee.org
SEQUENCE:2
SUMMARY:Modelling-Based Characterization of Materials for Application in 5G
  and Energy Sectors
URL;VALUE=URI:https://events.vtools.ieee.org/m/281502
X-ALT-DESC:Description: <br /><p>The talk explores synergies between four p
 illars:</p>\n<ul>\n<li>the science of electromagnetic (EM) modeling\,</li>
 \n<li>computer multiphysics simulations of EM wave interactions with mater
 ials\,</li>\n<li>modelling-based design of applicators for materials proce
 ssing and characterization\,</li>\n<li>joint application of computer model
 ing and material measurements in emerging technologies and green energy se
 ctors.</li>\n</ul>\n<p>The Speaker&rsquo\;s background and research follow
 ing the above loop are summarised in the Speaker&rsquo\;s biography. The r
 esults of her doctoral studies have been amalgamated in QuickWave conforma
 l FDTD simulator\, which continuously develops at QWED company co-founded 
 and currently led by the Speaker. The software assists\, on the one hand\,
  in the design of energy-efficient microwave applicators for high-quality 
 heating and microwavable food packages\, and on the other hand\, in the de
 velopment of high-precision methods and test-fixtures for the characteriza
 tion of dielectric and conductive materials. Examples highlighted in the t
 alk include:</p>\n<ol>\n<li>Electromagnetic simulations and design of ante
 nnas\, for space research (at NRAO and the ALMA project) and for 5G (with 
 new functionalities dedicated to steerable antenna arrays and multi-beam m
 ulti-band antenna systems\, taking into account variable material paramete
 rs).</li>\n<li>Multiphysics simulations of domestic ovens loaded with food
 s\, demonstrating the relationships between the FDTD and FEM methods and t
 heir different implementations\, based on the Speaker&rsquo\;s contributio
 ns to the recent Elsevier book\, with real-life examples courtesy of Whirl
 pool Corporation and BSH Haugerate GmbH.</li>\n<li>Modeling-based measurem
 ent techniques for 5G materials\, with round-robin testing of commercially
  available techniques (including those from QWED) in the iNEMI 5G initiati
 ve.</li>\n<li>Modeling-based imaging techniques for organic semiconductors
  and graphene anodes\, developed by QWED in the European H2020-Framework M
 MAMA and NanoBat consortia.</li>\n</ol>\n<p>We conclude with an outlook to
  new developments in materials modeling and characterization\, conducted w
 ithin the H2020 NanoBat project and the European Materials Modelling (EMMC
 ) and Characterisation (EMCC) Councils.</p><br /><br />Agenda: <br /><p><s
 pan style="font-size: 14pt\;">Please register using the link:<span style="
 color: #0000ff\;"> </span></span><strong>(<a href="https://event.on24.com/
 wcc/r/3163872/410F3FD4F4E9DEACF2EB4D38E8CD0AC3" target="_blank" rel="noope
 ner">Register now</a>)</strong></p>\n<p><strong>Title:</strong>&nbsp\;Mode
 lling-Based Characterisation of Materials for Application in 5G and Energy
  Sectors</p>\n<p><strong>Date:</strong>&nbsp\;Tuesday\, September 14\, 202
 1</p>\n<p><strong>Time:</strong>&nbsp\;09:00 AM Eastern Daylight Time</p>\
 n<p><strong>Duration:</strong>&nbsp\;1 hour</p>
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