Fine Art Print : Spintronics research, STM

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Fine Art Prints from Science Photo Library

Spintronics research, STM

Spintronics research. Coloured scanning tunnelling micrograph (STM) showing interactions between atoms and a metal surface. The topography of these atoms is being used to research spin-based nanodevice structures that could be model quantum- mechanical systems for understanding quantum mechanical phenomena such as quantum entanglement and quantum decoherence. Studying these effects could allow the quantum property of spin to be used for the construction of computer chips on a far smaller scale. This research is being carried out by Prof Yazdani at the Princeton Nanoscale Microscopy Laboratory (PNML), Princeton University, USA

Science Photo Library features Science and Medical images including photos and illustrations

Media ID 6282171

© DRS A. YAZDANI & D.J. HORNBAKER/SCIENCE PHOTO LIBRARY

Ali Yazdani Atom Atoms Computer Chip Decoherence Doped Doping Entanglement Interacting Interaction Interactions Magnetic Atom Metal Model System Nanotechnology Princeton Nanoscale Microscopy Princeton University Professor Yazdani Quantum Mechanical Quantum Physics Scanning Tunnelling Microscope Scanning Tunnelling Microscopy Semi Conductor Single Spin Defect Single Spin Impurities Single Spins Spin Based Electronics Spin Based Nanodevice Spin Polarised State Spintronics Structures Surface Topography Us A False Coloured Laboratory Physical

20"x20" (+3" Border) Fine Art Print

Discover the fascinating world of Spintronics research with our exquisite Fine Art Prints from Media Storehouse. This captivating image, captured through Coloured Scanning Tunneling Microscopy (STM) by Science Photo Library, offers a mesmerizing glimpse into the interactions between atoms and a metal surface. Each print is meticulously produced using high-quality materials and techniques, ensuring vibrant colors and exceptional detail. Bring the wonders of scientific discovery into your home or office with our stunning Fine Art Prints of Spintronics research.

20x20 image printed on 26x26 Fine Art Rag Paper with 3" (76mm) white border. Our Fine Art Prints are printed on 300gsm 100% acid free, PH neutral paper with archival properties. This printing method is used by museums and art collections to exhibit photographs and art reproductions.

Our fine art prints are high-quality prints made using a paper called Photo Rag. This 100% cotton rag fibre paper is known for its exceptional image sharpness, rich colors, and high level of detail, making it a popular choice for professional photographers and artists. Photo rag paper is our clear recommendation for a fine art paper print. If you can afford to spend more on a higher quality paper, then Photo Rag is our clear recommendation for a fine art paper print.

Estimated Image Size (if not cropped) is 46.4cm x 50.8cm (18.3" x 20")

Estimated Product Size is 66cm x 66cm (26" x 26")

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 showcases the cutting-edge world of spintronics research, a field that holds immense potential for revolutionizing computer chip technology. The image, captured using a colored scanning tunnelling microscope (STM), reveals the intricate interactions between atoms and a metal surface. These atomic topographies serve as crucial tools in studying spin-based nanodevice structures, which could pave the way for understanding quantum mechanical phenomena like quantum entanglement and decoherence. Led by Professor Yazdani at the prestigious Princeton Nanoscale Microscopy Laboratory (PNML) in Princeton University, USA, this groundbreaking research aims to harness the quantum property of spin to construct computer chips on an unprecedentedly small scale. By exploring these effects within spintronics, scientists hope to unlock new possibilities in fields such as nanotechnology and semiconductor physics. The STM's ability to visualize single spins and magnetic atoms provides invaluable insights into developing model systems for further exploration. Additionally, researchers are investigating techniques like doping with single-spin impurities to achieve a spin-polarized state necessary for advanced applications. With its vibrant false-colored representation of atom-surface interactions, this print serves as a testament to the remarkable progress being made at PNML under Professor Yazdani's guidance. As we delve deeper into this realm of quantum mechanics and atomic structures, we inch closer towards unlocking transformative advancements in computing technology that will shape our future society.

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