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Revolutionize Photonic Design with ANSYS Lumerical! ?? Transforming Photonic Innovation with ANSYS Lumerical: Next-Level Photonics: Push the boundaries of light manipulation with precise simulations. Complete Design Integration: Simulate photonic, electrical, and thermal properties seamlessly. Rapid Prototyping: Accelerate innovation from concept to reality with real-time simulations. Breakthrough Technology: Develop cutting-edge devices for telecom, computing, and quantum tech. Advanced Photonic Simulations: Empower your designs with cutting-edge precision in light and photonic modeling. Seamless Multiphysics Integration: Simulate electrical, thermal, and optical properties in one unified platform. Speed Up Innovation: Reduce prototyping time and accelerate breakthroughs in telecom, quantum computing, and more. Industry-Ready Tools: Leverage state-of-the-art technology to develop the next generation of photonic devices. Why ANSYS Lumerical is a Game-Changer in Photonic Simulation: Comprehensive Photonic Design: Simulate and optimize photonic components, circuits, and systems with unparalleled accuracy. Seamless Integration: Integrates with electrical and thermal solvers for complete multiphysics analysis. Advanced Analytics: Get precise insights on complex light-matter interactions for cutting-edge R&D. Boost Innovation: Accelerate the development of next-gen optical devices and quantum technologies. Let’s bring your photonic designs to life! ?? #Photonics #Innovation #ANSYSLumerical #OpticalTech #Simulation #QuantumTech #TechRevolution #R&D #NextGenDesign #PhotonicsEngineering?#VITSolutions

Revolutionize Photonic Design with ANSYS Lumerical! ?? Transforming Photonic Innovation with ANSYS Lumerical: Next-Level Photonics: Push the boundaries of light manipulation with precise simulations. Complete Design Integration: Simulate photonic, electrical, and thermal properties seamlessly. Rapid Prototyping: Accelerate innovation from concept to reality with real-time simulations. Breakthrough Technology: Develop cutting-edge devices for telecom, computing, and quantum tech. Advanced Photonic Simulations: Empower your designs with cutting-edge precision in light and photonic modeling. Seamless Multiphysics Integration: Simulate electrical, thermal, and optical properties in one unified platform. Speed Up Innovation: Reduce prototyping time and accelerate breakthroughs in telecom, quantum computing, and more. Industry-Ready Tools: Leverage state-of-the-art technology to develop the next generation of photonic devices. Why ANSYS Lumerical is a Game-Changer in Photonic Simulation: Comprehensive Photonic Design: Simulate and optimize photonic components, circuits, and systems with unparalleled accuracy. Seamless Integration: Integrates with electrical and thermal solvers for complete multiphysics analysis. Advanced Analytics: Get precise insights on complex light-matter interactions for cutting-edge R&D. Boost Innovation: Accelerate the development of next-gen optical devices and quantum technologies. Let’s bring your photonic designs to life! ?? #Photonics #Innovation #ANSYSLumerical #OpticalTech #Simulation #QuantumTech #TechRevolution #R&D #NextGenDesign #PhotonicsEngineering?

Join us at the Ansys booth #613 during SPIE Optics + Photonics for an exclusive book signing event on Tuesday, August 20th from 12-1pm! Meet Julie Bentley, who will be signing copies of her newly published book, “Designing Optics Using Zemax OpticStudio co-authored with Donald C. O’Shea.” Register for the book signing event at the link below and bring your copy by for signature! https://ansys.me/3M6iw7l? ?? ?? The first 10 people to register for the book signing event will receive a free signed copy! ???? Don’t have a copy, you can grab one during the show at the SPIE Library. While at the booth, don’t miss the opportunity to chat with our optics and photonics experts about the powerful features in the latest 2024 R2 Release! ?? Streamlined Data Exchange from Zemax to Speos: Transfer data seamlessly, accurately accounting for real-world stray light impacts, reducing errors, and improving system reliability. ?? Enhanced Tolerancing Capabilities: Model and simulate the effects of manufacturing errors on system performance with precision, ensuring designs meet the highest quality and performance standards. ?? Improved Light Guide Design for Automotive Lighting Systems: Updated tools help meet stringent regulatory requirements, ensuring top-notch performance in diverse conditions and compliance with global safety standards. ?? Enhanced Workflows for Photonic Integrated Circuits (PICs): Enjoy better integration with leading layout tools, streamlining the design process for greater accuracy, efficiency, and manufacturability. ?? Enhanced Workflows for Modern Chip Design: Leverage improved multiscale, multiphysics simulation tool workflows for comprehensive and accurate simulations, meeting today’s complex technological demands. See you next week! #SPIEOpticsPhotonics #AnsysOptics #Simulation

The latest release from?Ansys Optics?2024 R1 provides design for cutting-edge solutions in optics and photonics! Ansys Optics covers the whole field of optical simulations from?the quantum level?to illumination applications, enabling more complex designs without the knowledge worth a lifetime of the endless intricacies in photonics. ?? Our top 3 Highlights from the latest release are: 1?? All the new additions and improvements to analysis, optimization, and customization! 2?? Interoperability and workflow improvements that increase efficiency and experience! 3?? The calculation time improvements and the more realistic simulations for demanding systems! Read more about why and what we think about the best highlights in this blog about the latest release from Ansys Optics 2024 R1 here -?https://lnkd.in/dHcnuwAt #ansys?#optics?#simulation?#latest?#blog

For more information -: https://lnkd.in/gSKYJiZM QTCAD Videos-: https://lnkd.in/gSKYJiZM In this study, 3D simulations are introduced to analyze electric-dipole spin resonance (EDSR) for a spin qubit defined in a?28nm -node Ultra-Thin Body and Buried oxide (UTBB) Fully-Depleted Silicon-On-Insulator (FD-SOI) device operated at cryogenic temperatures. The device under consideration is designed to be compatible with STMicroelectronics’ standard fabrication techniques. The simulations predict the experimental and device parameters (e.g. drive amplitude, leakage, and Rabi frequency) required to make EDSR a viable means of qubit control before the device is fabricated. This work highlights how 3D TCAD tools which can simulate quantum-mechanical effects can help steer the design of quantum devices. ?#quantum?#software #innovation #first?#quantumcomputing?#quantumcomputers?#qubits?#simulationsoftware #qudots #modelingandsimulation #physics #science #software #nanotechnologies #innovation #3dmodeling #license #semiconductors #nanoelectronics #devices

?? New Composite Accelerometer Thrives in Extreme Conditions! ??? Scientists have crafted an innovative accelerometer designed for the harshest environments, merging the durability of silicon carbide (SiC) with the flexibility of carbon nanotubes (CNTs). This breakthrough, detailed in Microsystems & Nanoengineering, could revolutionize monitoring in aerospace, automotive, and industrial sectors. ????? Utilizing a SiC-CNT composite, the team developed a device that combines exceptional mechanical strength, electrical conductivity, and thermal stability. Ideal for situations where traditional MEMS accelerometers falter, this creation promises enhanced performance amid extreme temperatures and corrosive atmospheres. ????? This advancement not only surpasses existing fabrication hurdles but also marks a significant leap in MEMS technology, ensuring reliability when it's needed the most. ???? Stay informed, stay curious! ???? Science never ceases to amaze! ??? #MEMSTechnology #SiC_CNTComposite #Accelerometer #ExtremeEnvironments #Innovation #MicrosystemsEngineering Delft University of Technology, Jiarui Mo,?Shreyas Shankar,?Roberto Pezone,?Guoqi Zhang?&?Sten Vollebregt https://lnkd.in/gHzX5ZQE

Microwave Journal recently hosted a podcast "Additive Mfg Space Filter Design Flow Automation" with Dr. Laila Salman, Principal Technical Specialist at Ansys. Abstract: High-power, lightweight #RF passive components are essential in industries like #satellite communications, where they must handle increasing peak and average power levels across the frequency range. Traditional machining struggles with complex designs, but powder-bed fusion metal additive manufacturing has emerged as a breakthrough technology for creating arbitrary-shaped RF and #microwave components. #Space applications demand rigorous testing, and replicating space conditions in labs is often costly and unreliable. Artificial intelligence (#AI) optimization techniques are proving valuable in enhancing the design process of these components. Laila discusses these insights with Patrick Hindle, and explores the use of Ansys #Simulation tools and RF filter solutions from Synmatrix, which covers the RF filter design workflow from spec analysis, 3D modeling, to #AIoptimization. From there, Laila explores advanced #multiphysics analysis, and the role of #additivemanufacturing. Listen now: https://lnkd.in/gAeMt_4t

Read our latest article on "Integrated Microlens and Grating Coupler for Photonic Integrated Circuits" and see how you can tackle the intricate challenge of designing efficient fiber-to-waveguide couplers, crucial for seamless integration in photonic circuits. ??? Key Highlights: ?? Multi-Scale Simulation Workflow: We introduce a cutting-edge workflow leveraging Ansys Lumerical and Ansys Zemax OpticStudio for comprehensive design and optimization. ?? Microscopic to Macroscopic Precision: Our approach enables meticulous analysis from the microscale light interactions with the grating coupler to the macroscale propagation and tolerancing. ?? Microlenses for Enhanced Tolerance: Discover how the addition of microlenses on the grating coupler significantly relaxes tolerance on fiber alignment, enhancing coupling efficiency. Read the full article for insights and inspiration and delve deeper into the future of photonics! ?? #Photonics #PIC #Innovation #AnsysLumerical #ZemaxOpticStudio ??

Watch the third video in the?Synopsys Inc?video series on?#sensor?design. This video showcases the multiscale?Synopsys atomistic (#QuantumATK) to?#TCAD?(Sentaurus Device) modeling workflow to predict the chemresistive response of the designed MoS2 FET-based sensor for the detection of cortisol.

Ansys Optics Workshop at the Optica Advanced Photonics Congress Are you ready to elevate your photonic design skills? Join us for an in-depth workshop on the industry-standard photonic simulation workflow that seamlessly integrates with foundry requirements. ??? Date: Wednesday, 31 July / 11:30 - 13:00 ?? Location: Centre des congrès de Québec / Québec City, Québec, Canada In collaboration with our foundry partner, Tower Semiconductor, we'll demonstrate how to design and optimize photonic components and circuits using a Process Design Kit (PDK). This session will showcase: ?? Custom component design using a foundry process file, including multiphysics simulation of a ring modulator to characterize waveguide modes, optoelectronic properties, and S-parameters of the coupling region. ?? Compact model generation with CML Compiler. ?? Photonic circuit simulation in INTERCONNECT using components from the PDK. Using a DWDM Circuit as an example, you'll see firsthand how this method can help photonic designers achieve their best designs for fabrication. This hands-on workshop welcomes both academic and commercial users to participate in the demo, but observers are also encouraged to attend. Interested participants should bring their laptops and arrive early to upload the software. We will provide a temporary software license for use during the workshop. Don't miss this opportunity to learn from the best and take your photonic design capabilities to the next level! https://ansys.me/3zXIU0s #Photonics #Simulation #FoundryIntegration #TowerSemiconductor #PDK