Synopsys QuantumATK
@QuantumATK
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Fast and reliable atomic-scale modeling solutions.
Copenhagen, Denmark
Joined March 2011
Learn from our recent #SISPAD 2023 conference paper how atomistic simulations with Synopsys @QuantumATK and Vampire software packages are used to design novel MTJs for optimal read, write, and storage performance of STT-MRAM devices. https://t.co/5rzC6PEoed
#magneticmemory
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Watch the 2nd video in the video series on #sensor design - by Gabriele Boschetto from @CNRS and @AidaTodri from @TUeindhoven on designing a sensor based on CNTs and MoS2 using #atomistic modeling with @QuantumATK, sensor fabrication & ex-vivo testing. https://t.co/argWkKvoi2
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Check our recent #SISPAD 2023 conference paper on calculating and characterizing trap levels and diffusion parameters of charged point defects in 4H-SiC wide-bandgap material - key enabler of innovations in #power #electronics. https://t.co/Q3jiPdvgjB
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We are excited to introduce video series on #sensor design. The first video is by Dr. Sayan Kanungo from @BITS_Pilani on designing a multifunctional #sensor using combined #atomistic modeling with @QuantumATK, sensor device fabrication & ex-vivo testing. https://t.co/argWkKvoi2
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📢 We are thrilled to announce the new @Synopsys @QuantumATK V-2023.12 release for #atomisticsimulation. Many-body physics with GW, Machine-Learned (ML) MTP potential training with GPUs, Universal ML potential M3GNET. Learn more: https://t.co/STaVwR97UL
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Only one week left until @IEEEorg NTC Modeling and Simulation Webinar during which Tue Gunst from @Synopsys @QuantumATK will present on Interfacing cutting-edge practical nanoelectronic applications with advanced atomistic simulations. Register here: https://t.co/7KRLpd2ZKH
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In this work, in combination with STM experiments, @QuantumATK's #DFT simulations are used to study spin-crossover and fragmentation of Fe(neoim)2 complex on silver and gold surfaces 👉 https://t.co/MbgVh7BsV9 | #H2020 EU #COSMICS project 👉 https://t.co/bmFIolAaUX
#spintronics
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Watch the on-demand @QuantumATK V-2023.09 release webinar to learn about the new exciting features and enhancements for various #atomisticsimulation applications in the #semiconductorindustry and beyond 👉 https://t.co/rRNaGR7f3M
#materialsscience #machinelearningpotentials #dft
You can now watch the on-demand @QuantumATK V-2023.09 release webinar to learn about the new exciting features and enhancements for various atomic-scale modeling applications in #semiconductorindustry and beyond: https://t.co/VQf78Y7xgt
#atomisticsimulation #materialsscience #dft
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Watch this demo video to learn about the new Interfaces Builder in @QuantumATK for easily building multilayer material stacks and how it is used to construct a complex magnetic tunnel junction for STT-MRAM applications https://t.co/0bgRxFkS9K
#atomisticsimulation #materialscience
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Our work @DeviceModelling, @UofGEngineering in collaboration @QuantumATK and @Synopsys has been featured in #Semiconductor #Engineering. Article #highlights our research on #defects and #dopant substitutions in the compound #III-V #semiconductor
https://t.co/wdlH6SRQbd
semiengineering.com
A technical paper titled “Shockley-Read-Hall recombination and trap levels in In0.53 Ga0.47As point defects from first principles” was published by researchers at University of Glasgow and Synopsys...
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Gold is too reactive for a spin switch to survive. Silver is not. @kieluni @unidue @CEAsciences @QuantumATK
https://t.co/BvLNSsKqHs
pubs.acs.org
The neutral spin crossover complex Fe(neoim)2, neoim being the deprotonated form of the ionogenic ligand 2-(1H-imidazol-2-yl)-9-methyl-1,10-phenanthroline (neoimH), is investigated on the (111)...
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We are excited about our recent publication showcasing atomistic simulations of SRH recombination and trap levels for 23 intrinsic defects and dopants in the compound III-V semiconductor In0.53Ga0.47As 👉 https://t.co/IXf7tNBPkD
@QuantumATK | @UofGlasgow | @IBMResearch
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You can now watch the on-demand @QuantumATK V-2023.09 release webinar to learn about the new exciting features and enhancements for various atomic-scale modeling applications in #semiconductorindustry and beyond: https://t.co/VQf78Y7xgt
#atomisticsimulation #materialsscience #dft
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Are you attending #SISPAD this week? Have a chat with @QuantumATK's Haruhide Miyagi about our poster (P-4) on first-principles study of charged point defects in 4H-SiC and visit out booth: https://t.co/rrl8q4tBhB
#atomisticsimulation #materialsscience #semiconductors #power #dft
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Still time to register for tomorrow's webinar on the new Synopsys @QuantumATK V-2023.09 release 👉 https://t.co/VArbalGh6J
#atomisticsimulation #materialsscience #semiconductorindustry #machinelearningpotentials #dft
We are excited to announce the new @QuantumATK V-2023.09 release. Join our free @Synopsys Webinar on Sep 21 to learn about the new features and improvements for many atomic-scale modeling methods and applications in semiconductor industry and beyond: https://t.co/VArbalGh6J
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We are excited to announce the new @QuantumATK V-2023.09 release. Join our free @Synopsys Webinar on Sep 21 to learn about the new features and improvements for many atomic-scale modeling methods and applications in semiconductor industry and beyond: https://t.co/VArbalGh6J
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In this recent publication @Applied4Tech uses @QuantumATK on the development of copper thermal coefficient for low temperature hybrid bonding to achieve high-density interconnects and mitigate adverse thermal impact to the electronic device structures: https://t.co/4apTwmdvEg
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Take a break to read this study on Using #MachineLearning Potentials to Explore Interdiffusion at Metal–Chalcogenide Interfaces with @QuantumATK software: https://t.co/4PxSuFD1jC
#atomisticsimulation #mtp #materialsscience #materialsmodeling #dft #densityfunctionaltheory
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Our Chinese distributor, FERMITECH, will be exhibiting at the Annual Conference of Physical Societies from July 31 to August 4 👉 https://t.co/FlFX1zBNkX Visit their booth to discuss @QuantumATK's atomic-scale modeling solutions #materials #materialsscience #materialsresearch
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Are you attending ALD 2023 today? Don't miss Baiyu Zhang's presentation on atomistic modeling of thin-film deposition with carrier gases in @QuantumATK. Catch Baiyu after her talk or spot her in the crowd to learn more about our #QuantumATK's solutions: https://t.co/cgw66cqzU4
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