Glass Frame : Decoherence in quantum computing
Mounted Prints from Science Photo Library
Decoherence in quantum computing
Quantum computing decoherence. Three-dimensional graph showing the effects of decoherence on the qubit state in quantum computing. Qubits are the quantum computing equivalent of computing " bits". However, unlike bits, qubits exist in both " on" or " off" states at once. The broad peaks represent the extreme " on" and " off" states. The sharp peaks in between them represent quantum states between " on" and " off". A quantum computer uses molecules to save information in the qubit state which is far more powerful than normal computers. Decoher- ence is interference which causes the molecule to revert to one state and thus lose information
Science Photo Library features Science and Medical images including photos and illustrations
Media ID 6273954
© ISAAC CHUANG/IBM ALMADEN RESEARCH CENTER/ SCIENCE PHOTO LIBRARY
Computer Decoherence Graph Mechanics Quantum Computing
7"x5" Glass Mount
Wall mounted or free-standing, these black edged glass frames feature a smooth chamfered edge and a stylish black border (on back face of the glass). Manufactured from 4mm thick glass, Glass Mounts are a durable, professional way of displaying and protecting your prints. Your 7x5 print is slotted into the back of the frame so can easily be changed if needed.
Tempered Glass Mounts are ideal for wall display, plus the smaller sizes can also be used free-standing via an integral stand
Estimated Image Size (if not cropped) is 17.7cm x 12.7cm (7" x 5")
Estimated Product Size is 20.3cm x 16.2cm (8" x 6.4")
These are individually made so all sizes are approximate
Artwork printed orientated as per the preview above, with landscape (horizontal) orientation to match the source image.
EDITORS COMMENTS
This print from Science Photo Library showcases the intricate world of quantum computing and the phenomenon known as decoherence. The three-dimensional graph vividly illustrates the effects of decoherence on the qubit state, which is at the core of quantum computing. In this image, we witness a visual representation of qubits, analogous to traditional computer bits but with an extraordinary twist. Unlike classical bits that can only exist in either an "on" or "off" state, qubits possess the remarkable ability to simultaneously exist in both states. The broad peaks depicted here represent these extreme states while the sharp peaks between them signify various quantum states existing between "on" and "off". Quantum computers leverage molecules to store information within these qubit states, granting them unparalleled computational power compared to conventional machines. However, as beautifully illustrated by this graph, decoherence emerges as a significant challenge in maintaining stable qubit states. Decoherence refers to interference that disrupts and causes a molecule's reverting back to one specific state, leading to information loss. Understanding and mitigating decoherence are crucial for advancing quantum computing technology. Through this mesmerizing image captured by Science Photo Library, we gain insight into the complex realm of quantum mechanics and its potential implications for revolutionizing computation beyond our current understanding.
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