In a different corner of the social media universe, someone left comments on a link to Tuesday's post about quantum randomness declaring that they weren't aware of any practical applications of quantum physics. There's a kind ofLife of Brian absurdity to posting this on the Internet, which is a giant world-spanning, life-changing practical application of quantum mechanics. But just to make things a little clearer, here's a quick look at some of the myriad everyday things that depend on quantum physics for their operation.
Computers and Smartphones
Intel Corp. CEO Paul Otellini show off chips on a wafer built on so-called 22-nanometer technology... [+] at the Intel Developers' Forum in San Francisco, Tuesday, Sept. 22, 2009. Those chips are still being developed in Intel's factories and won't go into production until 2011. Each chip on the silicon "wafer" Otellini showed off has 2.9 billion transistors. (AP Photo/Paul Sakuma)
At bottom, the entire computer industry is built on quantum mechanics. Modern semiconductor-based electronics rely on the band structure of solid objects. This is fundamentally a quantum phenomenon, depending on the wave nature of electrons, and because we understand that wave nature, we can manipulate the electrical properties of silicon. Mixing in just a tiny fraction of the right other elements changes the band structure and thus the conductivity; we know exactly what to add and how much to use thanks to our detailed understanding of the quantum nature of matter.
Stacking up layers of silicon doped with different elements allows us to make transistors on the nanometer scale. Millions of these packed together in a single block of material make the computer chips that power all the technological gadgets that are so central to modern life. Desktops, laptops, tablets, smartphones, even small household appliances and kids' toys are driven by computer chips that simply would not be possible to make without our modern understanding of quantum physics.
Lasers and Telecommunications
Green LED lights and rows of fibre optic cables are seen feeding into a computer server inside a... [+] comms room at an office in London, U.K., on Tuesday, Dec. 23, 2014. Vodafone Group Plc will ask telecommunications regulator Ofcom to guarantee that U.K. wireless carriers, which rely on BT's fiber network to transmit voice and data traffic across the country, are treated fairly when BT sets prices and connects their broadcasting towers. Photographer: Simon Dawson/Bloomberg
Unless my grumpy correspondent was posting from the exact server hosting the comment files (which would be really creepy), odds are very good that comment took a path to me that also relies on quantum physics, specifically fiber optic telecommunications. The fibers themselves are pretty classical, but the light sources used to send messages down the fiber optic cables are lasers, which are quantum devices.
The key physics of the laser is contained in a 1917 paper Einstein wrote on the statistics of photons (though the term "photon" was coined later) and their interaction with atoms. This introduces the idea of stimulated emission, where an atom in a high-energy state encountering a photon of the right wavelength is induced to emit a second photon identical to the first. This process is responsible for two of the letters in the word "laser," originally an acronym for "Light Amplification by Stimulated Emission of Radiation."
Any time you use a laser, whether indirectly by making a phone call, directly by scanning a UPC label on your groceries, or frivolously to torment a cat, you're making practical use of quantum physics.
Atomic Clocks and GPS
TO GO WITH AN AFP STORY BY ISABELLE TOUSSAINT A woman holds her smartphone next to her dog wearing a... [+] GPS system on its collar in La Celle-Saint-Cloud on July 1, 2015. The Global Positioning System (GPS) collar help owners to track their pets remotely. AFP PHOTO / MIGUEL MEDINA (Photo credit should read MIGUEL MEDINA/AFP/Getty Images)
One of the most common uses of Internet-connected smart phones is to find directions to unfamiliar places, another application that is critically dependent on quantum physics. Smartphone navigation is enabled by the Global Positioning System, a network of satellites each broadcasting the time. The GPS receiver in your phone picks up the signal from multiple clocks, and uses the different arrival times from different satellites to determine your distance from each of those satellites. The computer inside the receiver then does a bit of math to figure out the single point on the surface of the Earth that is that distance from those satellites, and locates you to within a few meters.
This trilateration relies on the constant speed of light to convert time to distance. Light moves at about a foot per nanosecond, so the timing accuracy of the satellite signals needs to be really good, so each satellite in the GPS constellation contains an ensemble of atomic clocks. These rely on quantum mechanics-- the "ticking" of the clock is the oscillation of microwaves driving a transition between two particular quantum states in a cesium atom (or rubidium, in some of the clocks).
Any time you use your phone to get you from point A to point B, the trip is made possible by quantum physics.
Magnetic Resonance Imaging
Leila Wehbe, a Ph.D. student at Carnegie Mellon University in Pittsburgh, talks about an experiment... [+] that used brain scans made in this brain-scanning MRI machine on campus, Wednesday, Nov. 26, 2014. Volunteers where scanned as each word of a chapter of "Harry Potter and the Sorcerer's Stone" was flashed for half a second onto a screen inside the machine. Images showing combinations of data and graphics were collected. (AP Photo/Keith Srakocic)
The transition used for atomic clocks is a "hyperfine" transition, which comes from a small energy shift depending on how the spin of an electron is oriented relative to the spin of the nucleus of the atom. Those spins are an intrinsically quantum phenomenon (actually, it comes in only when you include special relativity with quantum mechanics), causing the electrons, protons, and neutrons making up ordinary matter behave like tiny magnets.
This spin is responsible for the fourth and final practical application of quantum physics that I'll talk about today, namely Magnetic Resonance Imaging (MRI). The central process in an MRI machine is called Nuclear Magnetic Resonance (but "nuclear" is a scary word, so it's avoided for a consumer medical process), and works by flipping the spins in the nuclei of hydrogen atoms. A clever arrangement of magnetic fields lets doctors measure the concentration of hydrogen appearing in different parts of the body, which in turn distinguishes between a lot of softer tissues that don't show up well in traditional x-rays.
So any time you, a loved one, or your favorite professional athlete undergoes an MRI scan, you have quantum physics to thank for their diagnosis and hopefully successful recovery.
So, while it may sometimes seem like quantum physics is arcane and remote from everyday experience (a self-inflicted problem for physicists, to some degree, as we often over-emphasize the weirder aspects when talking about quantum mechanics), in fact it is absolutely essential to modern life. Semiconductor electronics, lasers, atomic clocks, and magnetic resonance scanners all fundamentally depend on our understanding of the quantum nature of light and matter.
But, you know, other than computers, smartphones, the Internet, GPS, and MRI, what has quantum physics ever done for us?
The rest is here:
What Has Quantum Mechanics Ever Done For Us? - Forbes
- Netflixs 3 Body Problem: The science explained by an astrophysicist - Vox.com - March 24th, 2024 [March 24th, 2024]
- Entanglement entropies of nuclear systems gro - EurekAlert - March 24th, 2024 [March 24th, 2024]
- The Quest for a Theory of Everything Scientists Put Einstein to the Test - SciTechDaily - March 24th, 2024 [March 24th, 2024]
- Vibrating atoms are seen 'tuning' the energy of a single electron - Earth.com - March 24th, 2024 [March 24th, 2024]
- Innovator Spotlight: Joseph Maciejko | The Quad - University of Alberta - March 24th, 2024 [March 24th, 2024]
- A Breakthrough in the Control of Quantum Phenomena at Room Temperature Has Been Achieved, Researchers Say - The Debrief - February 16th, 2024 [February 16th, 2024]
- The End of the Quantum Ice Age: Room Temperature Breakthrough - SciTechDaily - February 16th, 2024 [February 16th, 2024]
- Quantum computer outperformed by new traditional computing - Earth.com - February 16th, 2024 [February 16th, 2024]
- URI program to help STEM professionals pivot into quantum information science careers - The University of Rhode Island - February 16th, 2024 [February 16th, 2024]
- Quantum realm controlled at room temperature for the first time - Earth.com - February 16th, 2024 [February 16th, 2024]
- Quantum Breakthrough: New Method Preserves Information Against All Odds - SciTechDaily - February 16th, 2024 [February 16th, 2024]
- Quantum computers get new design that makes them more "useful" - Earth.com - February 16th, 2024 [February 16th, 2024]
- Beyond Classical Physics: Scientists Discover New State of Matter With Chiral Properties - SciTechDaily - February 16th, 2024 [February 16th, 2024]
- Quantum research sheds light on the mystery of high-temperature superconductivity - Tech Explorist - February 16th, 2024 [February 16th, 2024]
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- Functioning quantum internet makes giant stride closer to reality - Earth.com - February 13th, 2024 [February 13th, 2024]
- Exploring New Futures in Space: A Revolutionary Integration of Neuroscience, Quantum Physics, and Space Exploration - SETI Institute - February 13th, 2024 [February 13th, 2024]
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- The State of the Art in Quantum Computing - Medium - February 13th, 2024 [February 13th, 2024]
- Beyond the Visible Universe: New Research Reveals How Gravity Influences the Quantum Realm - SciTechDaily - February 13th, 2024 [February 13th, 2024]
- Leader of IBM's Quantum Safe Team to speak at URI - University of Rhode Island - September 23rd, 2023 [September 23rd, 2023]
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- Zentropy A New Theory That Could Transform Material Science - SciTechDaily - September 23rd, 2023 [September 23rd, 2023]
- Researchers Studying the Quantum Realm Observe Alice in ... - The Debrief - September 23rd, 2023 [September 23rd, 2023]
- Augusta University graduate starts business in the artificial ... - Jagwire Augusta - September 23rd, 2023 [September 23rd, 2023]
- Quantum Echoes: A Revolutionary Method to Store Information as Sound Waves - SciTechDaily - August 14th, 2023 [August 14th, 2023]
- 'Quantum superchemistry' observed for the 1st time ever - Space.com - August 14th, 2023 [August 14th, 2023]
- Quantum Avalanche A Phenomenon That May Revolutionize Microelectronics and Supercomputing - SciTechDaily - August 14th, 2023 [August 14th, 2023]
- Applications of quantum mechanics at the beach - Symmetry magazine - August 14th, 2023 [August 14th, 2023]
- Book Review: On the Origin of Time Stephen Hawking's Final Theory - Moose Jaw Today - August 14th, 2023 [August 14th, 2023]
- Harnessing Quantum Technologies: The Next Big Leap in Global ... - Fagen wasanni - August 14th, 2023 [August 14th, 2023]
- The quantum avalanche - At the Vienna University of Technology, it ... - Chemie.de - August 14th, 2023 [August 14th, 2023]
- Semiconductors: The Linchpin of AI in Quantum Computing - Fagen wasanni - August 14th, 2023 [August 14th, 2023]
- The Promising Collaboration Between AI and Quantum Computing - Fagen wasanni - August 14th, 2023 [August 14th, 2023]
- String theory physicist changed quantum field theory - USC Dornsife College of Letters, Arts and Sciences - August 14th, 2023 [August 14th, 2023]
- QUANTUM SUPERCOMPUTERS. The words Quantum and ... - Medium - August 14th, 2023 [August 14th, 2023]
- Fourteen MIT School of Science professors receive tenure for 2022 ... - MIT News - August 14th, 2023 [August 14th, 2023]
- The Fascinating World of Quantum Integrated Circuits: The Next Big ... - Fagen wasanni - August 14th, 2023 [August 14th, 2023]
- Conclusive Evidence for Modified Gravity: Collapse of Newton's and ... - SciTechDaily - August 14th, 2023 [August 14th, 2023]
- Physicists Open New Path to an Exotic Form of Superconductivity - SciTechDaily - August 14th, 2023 [August 14th, 2023]
- The Principle of Least Action Now Exists in the Quantum Realm - Popular Mechanics - June 10th, 2023 [June 10th, 2023]
- Quantum materials: Electron spin measured for the first time - EurekAlert - June 10th, 2023 [June 10th, 2023]
- Life in a hologram | MIT News | Massachusetts Institute of Technology - MIT News - June 10th, 2023 [June 10th, 2023]
- If Black Holes Evaporate, Everything Evaporates - Universe Today - June 10th, 2023 [June 10th, 2023]
- Clever Ant-Man Easter Egg Links The Movie to the Real World's ... - Startefacts - June 10th, 2023 [June 10th, 2023]
- Quantum Cryptography: The Cutting Edge of Secure Communication - CityLife - June 10th, 2023 [June 10th, 2023]
- This 17-year-old works to make quantum mainstream - Indiatimes.com - June 10th, 2023 [June 10th, 2023]
- The multiverse is doomed and even Spider-Man and The Flash can't save it - Yahoo Entertainment - June 10th, 2023 [June 10th, 2023]
- Physics of Time Travel: A Scientific Perspective - Mirage News - June 10th, 2023 [June 10th, 2023]
- Quantum Spin Liquids: The Future of Superconductors - EnergyPortal.eu - June 10th, 2023 [June 10th, 2023]
- Interview: Three Books That Make Tess Gunty Angry - The New York Times - June 10th, 2023 [June 10th, 2023]
- Events Calendar School of Mathematics and Statistics Colloquium ... - Carleton University - June 10th, 2023 [June 10th, 2023]
- Graphene and Quantum Computing: A Match Made in Heaven - CityLife - June 10th, 2023 [June 10th, 2023]
- A Quantum Computer Simulation Has Reversed Time And Physics May Never Be The Same - Twisted Sifter - June 2nd, 2023 [June 2nd, 2023]
- Realizing the Einstein-Podolsky-Rosen Paradox for Atomic Clouds - Physics - June 2nd, 2023 [June 2nd, 2023]
- The US and UK team up to advance quantum information science - Fermi National Accelerator Laboratory - June 2nd, 2023 [June 2nd, 2023]
- How plants can perform feats of quantum mechanics - Big Think - June 2nd, 2023 [June 2nd, 2023]
- Physicists Make Matter out of Light to Find Quantum Singularities - Scientific American - June 2nd, 2023 [June 2nd, 2023]
- Eventually everything will evaporate, not only black holes - Science Daily - June 2nd, 2023 [June 2nd, 2023]
- Julius-Maximillians-Universitt Wrzburg Researchers Use ... - HPCwire - June 2nd, 2023 [June 2nd, 2023]
- TNTs The Lazarus Project Uses Suspense Trapping to Ask Smart ... - Roger Ebert - June 2nd, 2023 [June 2nd, 2023]
- Quantum Exponential: building a cutting edge quantum technology ... - The Armchair Trader - June 2nd, 2023 [June 2nd, 2023]
- IMDEA Software and IMDEA Networks work to deploy in the ... - EurekAlert - June 2nd, 2023 [June 2nd, 2023]
- Ian Hacking, Eminent Philosopher of Science and Much Else, Dies ... - The New York Times - June 2nd, 2023 [June 2nd, 2023]
- Does mass increase when nearing the speed of light? - Big Think - June 2nd, 2023 [June 2nd, 2023]
- Answering Questions about Boring Numbers, Disasters, Fusion, and ... - Scientific American - June 2nd, 2023 [June 2nd, 2023]
- Spiderman: Across the Spider-verse | Reel World | timesnewspapers ... - Webster-Kirkwood Times, Inc. - June 2nd, 2023 [June 2nd, 2023]
- There's a Secret Way to Get to Absolute Zero. Scientists Just Found It. - Popular Mechanics - May 6th, 2023 [May 6th, 2023]
- Photon Precision: How Quantum Physicists Shattered the Bounds of Sensitivity - SciTechDaily - May 6th, 2023 [May 6th, 2023]
- Do we live in a hologram? Why physics is still mesmerised by this idea - New Scientist - May 6th, 2023 [May 6th, 2023]
- Is Ultimate Truth an Equation? Nah. The Stute - The Stute - May 6th, 2023 [May 6th, 2023]
- UChicago Lab Creates 'Quantum Casino,' a Win-Win to Educate and ... - Polsky Center for Entrepreneurship and Innovation - May 6th, 2023 [May 6th, 2023]
- Physics - Tweezers in Three Dimensions - Physics - May 6th, 2023 [May 6th, 2023]
- Brave new world: On the edge of a second quantum revolution - University of Cape Town News - May 6th, 2023 [May 6th, 2023]
- Researchers pull back the quantum curtain on 'Weyl fermions' - Phys.org - May 6th, 2023 [May 6th, 2023]
- Scale separation: Breaking down unsolvable problems into solvable ones - Phys.org - May 6th, 2023 [May 6th, 2023]
- Postdoctoral Research Associate in Quantum Optics job with ... - Times Higher Education - May 6th, 2023 [May 6th, 2023]
- Australia's first quantum strategy predicts $6 billion in revenue and ... - SmartCompany - May 6th, 2023 [May 6th, 2023]
- Nature's Quantum Secret: Link Discovered Between Photosynthesis ... - SciTechDaily - May 6th, 2023 [May 6th, 2023]
- Two ERC proof of concept grants for the University of Bonn - EurekAlert - May 6th, 2023 [May 6th, 2023]