Excerpt from educatinghumanity.com
"Anyone not shocked by quantum mechanics has not yet understood it." Niels Bohr
10 Ways Quantum Physics Will Change the World
Ever want to have a "life do over", teleport, time travel, have your computer work at lightening speed or be guaranteed of no turbulence on your next flight, while many of these things are on the horizon. Make no mistake about it, quantum physics has been around for sometime but it is just about to change all of our lives.
physics deals with the behavior of the smallest things in our universe: subatomic particles. It is a new science, only coming into its own in the early part of the 20th century, when physicists began questioning why they couldn't explain certain radiation effects. One of those pioneering thinkers, Max Planck, used the term "quanta" for the tiny particles of energy he was studying, hence the term "quantum physics". Planck said the amount of energy contained in an electron is not arbitrary, but is a multiple of a standard "quantum" of energy. One of the first practical uses of this knowledge led to the invention of the transistor.
1. Parallel Universes
Ever wonder what life would be like if you could travel back in time? Would you assassinate Hitler? Join the Roman legions and see the ancient world? Ask the head cheerleader to the prom? While we've all got fantasies of what we'd do if given the opportunity, scientists at the University of California Santa Barbara may have cleared the path to righting the wrongs of years gone by.
In a 2010 experiment, the scientists proved that an object may exist simultaneously in two different worlds. They isolated a tiny piece of metal, struck it like a tuning fork and observed that it moved and stood still at the same time. While you probably would have just racked this observation up to delirium caused by overwork, these physicists say it proves that observing an object and action splits the universe into two parts -- one we can see and one we can't. The parallel universe theory says everything freezes during observation -- and then splits.
Scientists are trying to figure out how to jump at the moment of that split from the world we will enter into the one we won't. This parallel universe time travel theory should work, scientists say, because quantum particles move backward and forward through time . Now, all scientists have to do is build a time-bending machine using these quantum particles.
2. Quantum Computing
Another world-changing aspect of quantum physics may come in the computing realm, where a type of superconducting circuit is giving computers unprecedented speed and power. The circuits behave like artificial atoms, researchers say, because they can only gain or lose energy in packets by moving between discrete energy levels. The most complicated atom has five energy levels. This type of system is known as a "qudit" and is a vast improvement over the previous "qubit," which had only two energy levels. Qubits and qudits take the place of the bits used in standard computers. These quantum computers will use the laws of quantum mechanics to perform computations much faster than traditional computers.
3. Quantum cryptography
3. Quantum cryptography
All sorts of information, from your credit card numbers to top-secret military strategies, are on the Internet, and a skilled hacker with enough knowledge and computer power could play havoc with your finances or world security.Encryption codes keep that information secure, and computer experts work ceaselessly to come up with more and more secure methods.
Encoding messages inside an individual particle of light, or photon, has long been the goal of quantum cryptographers. That method seems to be just at hand, as scientists at the University of Toronto have worked with a method fast enough to encode a video . Cryptography involves a string of ones and zeros called the "key." Adding the key once encodes the information, adding it again decodes it. If an unauthorized person manages to obtain the key, the code can be cracked. But in quantum key distribution, the very act of using the key would reveal the hacker's presence.
Haven't we all imagined what it would be like to instruct Scotty to beam us up, then dissolve into a stream of particles, only to be reassembled in another place? It's science fiction no more; it has been done, not on humans but on large molecules. Therein lies the problem. Every molecule in the human body would have to be scanned and then reassembled on the other side. But that's not going to happen any time soon. Another thing: Once you scan the particle, according to the laws of quantum physics, you have changed it. You can't make an exact copy.
Scientists are using something very, very big -- the Large Hadron Collider -- to look for something very, very small: the fundamental particle believed to be at the root of our universe. The Higgs boson -- sometimes prosaically called the "God particle" -- is what scientists believe gives mass to fundamental particles (electrons, quarks and gluons) . Scientists believe the Higgs boson field must pervade all space, but so far the existence of these particles is just a theory. By isolating the Higgs boson, physicists might be able to understand how the universe went from a dense mass at the moment of the Big Bang to the infinitely spacious universe we have today. It might also explain how matter came to be balanced with antimatter. In short, finding the Higgs boson might explain everything.
It is hard to imagine that the Native American, shamanistic healers and the pioneers of quantum physics would have much in common, but it turns out they do. Niels Bohr, one of the early investigators into this strange field of science, believed that much of what we call reality was dependent on an "observer effect," the relationship between what our reality does and how we observe it. This became a huge debate among quantum physicists, but experiments more than half a century after Bohr proposed his theory provided some support for it.
According to some physicists who have tested Bell's inequality, reality is based on the observer effect, which could explain the power of shamanistic healing and the interaction between the reality of local space-time and human consciousness. As far back as 1998, controlled experiments have demonstrated the effect of observation on particles .
One day soon, quantum physics may help doctors locate cancer cells in the body and pinpoint exactly where the cells have spread. Scientists have discovered that some tiny semiconductor crystals called quantum dots glow when exposed to ultraviolet radiation and photographed with a special microscope . They then coat the quantum dots with a material that is attractive to cancer cells. When injected into the body, the coated glowing quantum dots latch on to cancer cells, showing doctors exactly where to look for the cells. The glow coating is long-lasting, and it is relatively easy for scientists to customize it to fit the specifications of the particular type of cancer they are searching for.
While high-tech science certainly is responsible for many medical breakthroughs, man was dependent on other means of fighting illness for centuries.
A new magnetic semicconductor developed at the Massachusetts Institute of Technology may lead to faster yet more energy-efficient electronic devices in the future. Called "spintronics," this technology uses the spin state of electrons to transmit and store information. While conventional electronic circuits use only the charge state of an electron, spintronics takes advantage of the electron's spin direction.
Processing information through circuits with spintronics would allow information to be carried in two directions at once, further reducing the size of electronic circuits . This new material injects electrons into the semiconductor based on their spin orientation. The electrons travel through the semiconductor and are ready to be a spin detector on the other side. Scientists say the new semiconductor can work at room temperature and is optically transparent, meaning it could work with touch screens and solar cells. They are also optimistic that it will enable inventors to come up with even more multi-functional devices.
Soon, quantum physics may have eliminated that bumpy ride that causes you to spill your drink on an airplane. By creating quantum turbulence in an ultra-cold atom gas in the laboratory, Brazilian scientists may have come across a method of studying the turbulence that interferes with airplanes and boats. For centuries, turbulence has stumped scientists because of the difficulty in re-creating the conditions that cause it to form.
Turbulence is caused by swirls in a gas or liquid, and in nature occurs in a chaotic manner, seemingly without rhyme or reason . While turbulence can form in air and in water, physicists have discovered it can also form in ultra-cold atom gases and superfluid helium. By studying turbulence in a controlled method in the lab, scientists may one day be able to predict and perhaps control it in nature.
Something called entanglement may be a major influence on the future of solar power. Entanglement means the quantum interconnection of objects, such as atoms that are separated in actual physical space. Physicists believe that entanglement may occur in the parts of plants responsible for photosynthesis, or the conversion of light into energy. The structures responsible for photosynthesis, the chromophores, can turn 95 percent of the light they take in into energy . Scientists are examining how this interconnection on the quantum level can influence solar energy creation, in hopes of developing efficient solar cells based on nature. Scholars have also discovered that algae may be using some form of quantum mechanics to move energy derived from light and may actually be able to store the energy in two places at once.