Framed Print : Scarred quantum wave
Framed Photos from Science Photo Library
Scarred quantum wave
Scarred quantum wave. Computer model showing the paths taken by a wave trapped inside a stadium- shaped cavity. The paths show the movement of a particle which is behaving like a wave (showing wave-particle duality), as it bounces around the cavity. The pattern has features characteristic of classical and quantum mechanics. It is similar to a random quantum wave, formed by randomly adding together waves travelling in all directions. However, it is known as a scarred quantum wave, because it features classical periodic orbits (repeating paths) which give it symmetry, forming a " double diamond". Modelled by Professor Eric Heller at Harvard University, USA
Science Photo Library features Science and Medical images including photos and illustrations
Media ID 6282977
© ERIC HELLER/SCIENCE PHOTO LIBRARY
America Cambridge Cavity Classical Computer Model Harvard University Heller Massachusetts Mechanics Modelling Motion Movement Orbits Particle Particle Physics Path Paths Professor Eric Scarred Simulated Simulation Symmetrical Symmetry Us A
14"x12" (38x32cm) Modern Frame
Discover the fascinating world of quantum physics with our Media Storehouse Framed Prints featuring the captivating image "Scarred Quantum Wave" by Science Photo Library. This thought-provoking print showcases a computer model illustrating the intriguing behavior of a wave-particle, as it navigates the intricacies of a stadium-shaped cavity. The mesmerizing patterns reveal the wave's movement, providing a unique and visually striking representation of quantum mechanics. Elevate your home or office decor with this conversation-starting piece, and delve into the mysteries of the subatomic realm.
Wood effect frame, card mounted, 10x8 archival quality photo print. Overall outside dimensions 14x12 inches (38x32cm). Environmentally and ozone friendly, 40mm wide x 15mm Polycore® moulding has the look of real wood, is durable and light and easy to hang. Biodegradable and made with non-chlorinated gases (no toxic fumes) it is efficient; producing 100 tons of polystyrene can save 300 tons of trees! Prints are glazed with lightweight, shatterproof, optical clarity acrylic (providing the same general protection from the environment as glass). The back is stapled hardboard with a sawtooth hanger attached. Note: To minimise original artwork cropping, for optimum layout, and to ensure print is secure, the visible print may be marginally smaller
Contemporary Framed and Mounted Prints - Professionally Made and Ready to Hang
Estimated Image Size (if not cropped) is 21.2cm x 24.4cm (8.3" x 9.6")
Estimated Product Size is 32.5cm x 37.6cm (12.8" x 14.8")
These are individually made so all sizes are approximate
Artwork printed orientated as per the preview above, with portrait (vertical) orientation to match the source image.
EDITORS COMMENTS
This print titled "Scarred Quantum Wave" showcases a computer model that beautifully illustrates the intricate paths taken by a wave trapped inside a stadium-shaped cavity. The image vividly represents the fascinating concept of wave-particle duality, where a particle behaves like both a wave and a particle simultaneously. Created by Professor Eric Heller at Harvard University in Cambridge, Massachusetts, this simulation demonstrates the movement of the particle as it bounces around within the cavity. The pattern displayed in this artwork exhibits characteristics derived from classical and quantum mechanics, making it truly mesmerizing. Referred to as a scarred quantum wave due to its unique features, this simulated creation combines randomly added waves traveling in all directions. However, what sets it apart is its symmetrical formation resembling an elegant "double diamond". This symmetry arises from classical periodic orbits or repeating paths found within the system. The illustration serves as an exceptional representation of cutting-edge research in particle physics and stands as testament to Professor Eric Heller's expertise in modelling complex phenomena. With its striking visual appeal and scientific significance, this artwork offers viewers an opportunity to delve into the intriguing world of quantum mechanics while appreciating its artistic beauty.
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