The Invisible Made Visible
Quantum Physics Reimagined
Exploring the fundamental nature of reality through interactive simulations that make quantum phenomena accessible and intuitive.
Exploring the fundamental nature of reality through interactive simulations that make quantum phenomena accessible and intuitive.
Founded on the principles of scientific curiosity and technological innovation, Mahmodi Labs specializes in creating interactive quantum physics simulations that make complex phenomena accessible to researchers, students, and enthusiasts.
Through immersive visualizations, our aim is to bridge the gap between theoretical quantum mechanics and intuitive understanding, revealing the beauty and strangeness of the quantum world.
Making the invisible quantum world tangible through interactive visual models.
Building accessible quantum physics tools that run in any modern browser.
Designed for students, researchers, and curious minds exploring quantum theory.
Translating complex mathematical models into intuitive visual experiences.
Experience the foundational experiment of quantum mechanics that reveals wave-particle duality. Watch as particles create an interference pattern when unobserved, but behave like classical particles when their path is measured.
Visualize Einstein's "spooky action at a distance" with this interactive simulation of quantum entanglement and Bell's inequality. Explore how quantum particles maintain instantaneous connections regardless of distance.
Explore the fascinating quantum effect that allows particles to pass through energy barriers that would be insurmountable in classical physics. Control barrier height and width to see how probability distributions change.
Mathematical models behind quantum phenomena
Visual approach to complex concepts
Implementing interactive WebGL modules
Scientific accuracy and usability
I'm Mohd Mahmodi, a second-year Computer Science student with a growing interest in machine learning and quantum physics. What started as curiosity about the fundamental laws of nature has evolved into a passion project of creating interactive simulations.
Through my coding projects, I aim to make complex physics concepts more intuitive and accessible. I believe that visualization can help bridge the gap between abstract theory and practical understanding, especially for fellow students encountering these ideas for the first time.
Exploring virtual reality environments for fully immersive quantum physics experiments, allowing users to manipulate quantum systems with their hands.
Development of interactive tools to visualize quantum algorithms and quantum circuit operations, making quantum computing concepts more intuitive.
Integrating AI to create personalized quantum physics learning experiences that adapt to the user's level of understanding and learning style.
Quantum Entanglement Simulator with interactive Bell's Inequality demonstration
Quantum Tunneling Simulator with adjustable potential barriers
Schrödinger Wave Equation Explorer with interactive wavefunction visualization
Beta release of VR Quantum Laboratory for Oculus and Vive platforms
I'm always looking to connect with fellow students, researchers, and developers who share a passion for quantum physics and interactive visualization.
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