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DESCRIPTION:The coexistence of electric polarization and magnetization in m
 ultiferroic materials provides great opportunities for realizing magnetoel
 ectric coupling\, including electric field control of magnetism\, or vice 
 versa\, through a strain mediated magnetoelectric coupling in layered magn
 etic/ferroelectric multiferroic heterostructures. The strong magnetoelectr
 ic coupling has been the enabling factor for different multiferroic device
 s\, which\, however\, has been elusive\, particularly at RF/microwave freq
 uencies. In this presentation\, I will cover the most recent progress on n
 ew integrated RF magnetoelectric NEMS (nanoelectromechanical system) based
  sensors and antennas [1-9]. Specifically\, we will introduce magnetoelect
 ric multiferroic materials and their applications in different devices\, i
 ncluding novel ultra-compact RF NEMS acoustic magnetoelectric antennas imm
 une from ground plane effect with < l0/100 in size\, self-biased operation
 \, and ground plane immunity. These magnetoelectric antennas are smart ant
 ennas with picoTesla magnetic field sensitivity\, and with orders of magni
 tude improved figure of merit for wireless power\, transfer compared to st
 ate-of-the-art technologies. We will also cover ultra-sensitive RF NEMS ma
 gnetoelectric magnetometers with ultra-low noise for DC and AC magnetic fi
 elds sensing and magnetoelectric signal processing devices. These novel fe
 rroic materials and devices show great promise for applications in compact
 \, lightweight and power-efficient sensors\, antennas\, and tunable compon
 ents for radars\, communication systems\, biomedical devices\, IoT\, etc.\
 n\nReference:\n\n- Zaeimbashi\, et al. Nature Comm.\, in press 2020.\n- J.
  Shah\, et al. Sciences Avances\, in press 2020.\n- Chen\, et al. Applied 
 Physics Letters 117 (17)\, 170501 (2020).\n- Dong\, et al. IEEE Antennas a
 nd Wireless Propagation Letters 19 (3)\, 398-402 (2020).\n- Wang\, et al. 
 Physical Review Applied 12 (3)\, 034011 (2019).\n- Zeimbashi\, IEEE Journa
 l of Electromagnetics\, RF and Microwaves in Medicine and Biology\, 3\, 20
 6 (2019).\n- H Lin\, et al\, MRS Bulletin\, 43 (11)\, 841-847 (2018).\n- D
 ong\, Applied Physics Letters 113 (26)\, 262401 (2018).\n- Nan\, et al. Na
 ture Comm. 8\, 296 (2017).\n\nCo-sponsored by: Poly-Grames\, INRS\,  STARa
 Com\n\nSpeaker(s): Nian Sun\, \n\nMontreal\, Quebec\, Canada\, Virtual: ht
 tps://events.vtools.ieee.org/m/261698
LOCATION:Montreal\, Quebec\, Canada\, Virtual: https://events.vtools.ieee.o
 rg/m/261698
ORGANIZER:djerafi@emt.inrs.ca
SEQUENCE:10
SUMMARY:Magnetic and Magnetoelectric MEMS/NEMS for Sensing\, Power\, RF\, M
 icrowave and mm-Wave Electronics
URL;VALUE=URI:https://events.vtools.ieee.org/m/261698
X-ALT-DESC:Description: <br /><p>The coexistence of electric polarization a
 nd magnetization in multiferroic materials provides great opportunities fo
 r realizing magnetoelectric coupling\, including electric field control of
  magnetism\, or vice versa\, through a strain mediated magnetoelectric cou
 pling in layered magnetic/ferroelectric multiferroic heterostructures. The
  strong magnetoelectric coupling has been the enabling factor for differen
 t multiferroic devices\, which\, however\, has been elusive\, particularly
  at RF/microwave frequencies. In this presentation\, I will cover the most
  recent progress on new integrated RF magnetoelectric NEMS (nanoelectromec
 hanical system) based sensors and antennas [1-9]. Specifically\, we will i
 ntroduce magnetoelectric multiferroic materials and their applications in 
 different devices\, including novel ultra-compact RF NEMS acoustic magneto
 electric antennas immune from ground plane effect with &lt\; l<sub>0</sub>
 /100 in size\, self-biased operation\, and ground plane immunity. These ma
 gnetoelectric antennas are smart antennas with picoTesla magnetic field se
 nsitivity\, and with orders of magnitude improved figure of merit for wire
 less power\, transfer compared to state-of-the-art technologies. We will a
 lso cover ultra-sensitive RF NEMS magnetoelectric magnetometers with ultra
 -low noise for DC and AC magnetic fields sensing and magnetoelectric signa
 l processing devices. These novel ferroic materials and devices show great
  promise for applications in compact\, lightweight and power-efficient sen
 sors\, antennas\, and tunable components for radars\, communication system
 s\, biomedical devices\, IoT\, etc.</p>\n<p><strong>Reference:</strong></p
 >\n<ol>\n<li>Zaeimbashi\, et al. Nature Comm.\, in press 2020.</li>\n<li>J
 . Shah\, et al. Sciences Avances\, in press 2020.</li>\n<li>Chen\, et al. 
 Applied Physics Letters 117 (17)\, 170501 (2020).</li>\n<li>Dong\, et al. 
 IEEE Antennas and Wireless Propagation Letters 19 (3)\, 398-402 (2020).</l
 i>\n<li>Wang\, et al. Physical Review Applied 12 (3)\, 034011 (2019).</li>
 \n<li>Zeimbashi\, IEEE Journal of Electromagnetics\, RF and Microwaves in 
 Medicine and Biology\, 3\, 206 (2019).</li>\n<li>H Lin\, et al\, <em>MRS B
 ulletin\,</em> 43 (11)\, 841-847 (2018).</li>\n<li>Dong\, Applied Physics 
 Letters 113 (26)\, 262401 (2018).</li>\n<li>Nan\, et al. <em>Nature Comm</
 em>. 8\, 296 (2017).</li>\n</ol>
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