PraxiLabs’ Post

Cyclotron – it sounds like a character from a science fiction film. It’s actually a particle accelerator, a machine that uses electromagnetic fields to propel charged particles to very high speeds and energies, used to produce radioisotopes for a type of medical drugs called radiopharmaceuticals, which diagnose and treat cancer. There are over 1500 cyclotron facilities around the world, and the IAEA has recently updated its interactive map and database featuring 1300 of these cyclotron facilities from 95 countries. https://lnkd.in/e-DDXzvy #InnovateForImpact #technology #tech #innovation #engineering #science #software #huawei #design #electronics #fourthindustrialrevolution #programming #coding #education #computer #mathematics #artificialintelligence #math #uni #student #college #phd #research #quantumcomputing #quantummechanics #physics #technology #quantumcomputer #industry40 #artificialintelligence #ai #machinelearning #emergingtechnologies #computerscience #maths #innovation #settheory #it #quantumtechnology #datascience #mit #sustainability #it #hydrogen #computerscience #logic #theoreticalphysics #data #finance #asic #infrastructure #manufacturing #digitaltransformation #futureofwork #datascience #teamwork

I am pleased to announce the publication of my recent research in Communications Physics titled "Multiphysics machine learning framework for on-demand multi-functional nano pattern design by light-controlled capillary force lithography." This work represents a significant advancement in our ongoing efforts to merge machine learning with nanotechnology for more efficient and precise design of nano-scale structures. This study builds upon our previous work published in Micromachines—"Tackling Multi-Physics Nano-Scale Phenomena in Capillary Force Lithography with Small Data by Hybrid Intelligence." The earlier research focused on uncovering the physical principles behind the complex behaviors observed in capillary force lithography (CFL), particularly the "sudden jump phenomenon." In our latest work, we have developed a computational framework that serves as a surrogate model for the inverse design of nano-patterned surfaces. By integrating human expertise with machine learning, this framework addresses the challenges associated with traditional methods, which often involve complex, labor-intensive procedures. Our approach leverages a hybrid intelligence model to learn and apply the underlying multi-physics processes involved in UV-controlled nano patterning. The result is a more efficient and scalable method for designing multi-functional surfaces, with potential applications across various industries, including electronics, biomedical devices, and materials science. This research provides a new pathway for the rapid and cost-effective production of nano-scale patterns, which are critical for creating surfaces with specialized properties, such as transparency, bactericidal functions, and anti-fogging capabilities. The ability to design these patterns with greater precision and less manual intervention could revolutionize how we approach nano fabrication in both academic and industrial settings. I would like to express my sincere appreciation to my PhD advisor, Dr. In Ho Cho, for his invaluable guidance and collaboration on this project. His expertise and our shared dedication to advancing this field have been crucial in achieving these results. I look forward to continuing our work together and exploring further applications of our framework, while also engaging with colleagues who are interested in this area of research. You can access the full papers here: https://lnkd.in/gbZ53Kqx https://lnkd.in/gUxVyDCP #Nanotechnology #MachineLearning #ArtificialIntelligence #Research #CapillaryForceLithography #HybridIntelligence #NanoDesign

Journal of Nano Simulation (JONS)  is launched as a quarterly journal under the license of Damghan University and publishes research and review articles in the field of molecular dynamics simulation, quantum mechanics, chemometrics, artificial intelligence, programming and software development in nano (nanostructures, nanomaterials; nanocomposites, nanomedicines, nanotubes, nanowires, nanoalloys, etc.) with free access, online and multidisciplinary.

"Spinning into science: discovering the power of centrifugal force! 🌪️🔬" Learning about centrifugal force provides a fascinating insight into fundamental physics and its practical applications in STEM fields. Centrifugal force, the apparent force that pushes objects outward when they are rotating around a center, is crucial in understanding rotational motion and dynamics. This concept is pivotal in various STEM applications, such as designing centrifuges for separating substances in laboratories, understanding the forces acting on vehicles during turns, and developing amusement park rides. By exploring centrifugal force, students gain a deeper appreciation of physics principles, enhancing their problem-solving skills and fostering innovation in engineering and technology. #explore #explorepage #BCR #BCRTechED #CentrifugalForce #PhysicsFun #STEMeducation #ScienceDiscovery #RotationalMotion #LabTech #EngineeringInnovation #TechnologyApplications #PhysicsPrinciples #STEMlearning

ARTICLE ABOUT COURSES FACILITATOR SESSION AND EFFECTIVE LEARNING Crystals, with their mesmerizing symmetry and intricate structures, have fascinated scientists and enthusiasts alike for centuries. However, it wasn't until the advent of crystal physics that we truly began to unlock the secrets hidden within these seemingly simple formations. In this article, we delve into the intriguing world of crystal physics, exploring its history, principles, and remarkable applications. Unveiling the FoundationsCrystal physics emerged in the late 19th century, spurred by groundbreaking discoveries in the field of solid-state physics. Scientists such as Max von Laue, William Lawrence Bragg, and Linus Pauling paved the way for a deeper understanding of crystals by elucidating their atomic structure and properties .The Structure of CrystalsAt the heart of crystal physics lies the study of crystal structures. Crystals are characterized by the periodic arrangement of atoms or molecules in a three-dimensional lattice. This orderly arrangement gives rise to unique properties such as symmetry, diffraction patterns, and optical behavior. Principles of Crystallography Crystallography, a branch of crystal physics, focuses on the study of crystal structures and their properties. It employs techniques such as X-ray diffraction, neutron diffraction, and electron microscopy to analyze the atomic arrangement within crystals. By deciphering diffraction patterns, crystallographers can determine the spatial arrangement of atoms and molecules, thus unveiling the structural secrets of crystals. Applications in Materials ScienceThe insights gained from crystal physics have revolutionized various fields, particularly materials science. Crystals play a crucial role in the design and development of advanced materials with tailored properties. From semiconductors and superconductors to pharmaceuticals and biomaterials, crystal physics underpins countless technological innovations that shape our modern world. In this sessions Dr.Immanuel paulraj taught us crystal system,Miller indices and crystal imperfections it is easily understandable and the way of teaching slowly is very helpful it makes us gain more knowledge about this topic thank you sir to share your knowledge and spent some time with us and thankyou sir SRIRAM M Mgive us to join CF session and made to gain extra knowledge #Effectivelearning #snsct #snsinsitutions #snsdesignthinker #snsdesignthinking

In gold nanoparticles, the conduction electrons on the surface can oscillate collectively when they interact with light. This oscillation is called surface plasmon resonance. These oscillations occur at specific wavelengths of light, which depend on the size, shape, and environment of the nanoparticles. For gold nanoparticles typically in the range of 1 to 100 nanometers, the SPR causes them to absorb blue and green light. When blue and green wavelengths are absorbed, the remaining wavelengths of light are reflected and transmitted. This results in the particles appearing red to the human eye. https://lnkd.in/evw6tYMm #InnovateForImpact #technology #tech #innovation #engineering #science #software #huawei #design #electronics #fourthindustrialrevolution #programming #coding #education #computer #mathematics #artificialintelligence #math #uni #student #college #phd #research #quantumcomputing #quantummechanics #physics #technology #quantumcomputer #industry40 #artificialintelligence #ai #machinelearning #emergingtechnologies #computerscience #maths #innovation #settheory #it #quantumtechnology #datascience #mit #sustainability #it #hydrogen #computerscience #logic #theoreticalphysics #data #finance #asic #infrastructure #manufacturing #digitaltransformation #futureofwork #datascience #teamwork

Stable diffusion software plays a crucial role in simulating the process of particle diffusion in various fields such as physics, chemistry, and engineering. These tools utilize mathematical algorithms to ensure accurate and efficient simulations, aiding researchers in predicting particle behavior in different mediums. By enabling scientists and engineers to design improved materials, comprehend biological processes, and optimize industrial applications, stable diffusion software serves as a valuable asset in scientific analysis. The stability of these simulations is essential for obtaining reliable and consistent results, making such software an indispensable tool for research and development . #DiffusionSoftware #Simulation #ResearchAndDevelopment

If you are a senior-level or graduate student working on a capstone project, thesis or dissertation, you may be eligible for a free full version of FRED Optical Engineering Software.💡 Have a look at the Demo Version today. Contact us for the application form 👉https://lnkd.in/g6W5fNMi #mirrordesign #mirror #raytracing #laser #FRED #light #simulation #raytracing #innovation #imaging #ai #calibration #inspection #machinevision #technology #imagingmodule #electronics #opto #deeplearning #fiberoptic #robotics #photonics #spie #opticalsensors #spectroscopy # #optics #science #physics #lasers #research #semiconductor #universities #students #rays

interesting facts about gold.

🌟 Exploring Physics of Low Dimensional Materials: Comprehensive Notes and Insights! 📚✨ Dive into the world of cutting-edge physics with our curated document on Physics of Low Dimensional Materials. This resource is packed with detailed notes, insightful interview questions, and practical examples covering a diverse range of topics: 🔬 Thermoelectric power in metal films 🔍 Thin film resistors and thermopiles 🌡️ Quantum well devices 🌌 Chemical Synthesis of Nanoparticles: Bottom-up approach 🧪 Functionalized nanoparticles in different media 📏 Size control in nanomaterials 🔧 Self-assembly principles 🌐 Nanoparticle arrays 💎 Semiconductor nanoparticles: synthesis, characterization, and applications of quantum dots 🔋 Magnetic nanoparticles: assembly and nanostructures 🔬 Manipulation of nanoscale biological assemblies 🎯 Carbon nanotubes and fullerenes as nanoclusters 🎞️ Nanostructured films: Physical Methods of Nanostructure Fabrication using top-down approaches 🔍 Nanopatterning Lithography: Optical, X-ray, and Electron beam lithography, Ion-beam lithography Each topic is presented in an accessible format, catering to beginners and serving as a valuable revision tool for experienced professionals. Part 1 is now available on our Telegram channel, where you can delve deeper into these fascinating subjects. 🔗 Follow our Telegram channel to access Part 1 and stay updated on new releases. Whether you’re exploring nanotechnology for the first time or seeking advanced insights, this document is your gateway to understanding the forefront of physics and materials science. https://lnkd.in/d-mKveE4 #Physics #Nanotechnology #LowDimensionalMaterials #STEMEducation #ResearchNotes #InterviewQuestions #QuantumDots #Nanostructures #CarbonNanotubes #LinkedInLearning #ScienceEducation #PhysicsNotes #STEMCareers #Nanomaterials #Semiconductors #AdvancedMaterials #Lithography #ElectronBeamLithography #XRayLithography #IonBeamLithography #BeginnerEducation #ProfessionalDevelopment