08/10/2019 Interpretations of Quantum Weirdness Quantum Mechanics Part 4 What does it mean? Interpretations Of Quantum Mechanics Quantum Tunnelling 1 2 • A wavefunction describes the quantum The Copenhagen Interpretation system completely, in a probabilistic manner • Any act of observation of the system causes the wavefunction to collapse into a definite state • There must be unanswerable questions as to the quantum state before the measurement This contradicts the classical view of Niels Bohr 1885-1962 Danish Physicist physics: that it is always possible to know everything, if you measure it precisely enough 3 4 Who Invented the Term? Correspondence Principle • The name appears to have been invented by • Quantum mechanics must produce the same results as Werner Heisenberg in the 1950s, when classical physics, if there are enough particles. • Bohr was first to originate this in 1913, in his hydrogen alternative interpretations appeared atom model • Special relativity (particles moving fast) reduces to Newtonian physics when the particles move slowly • General relativity reduces to Newtonian gravity, when dealing with weak gravitational systems • Inheritance from chromosomes reduces to Mendelian inheritance in organisms 5 6 1 08/10/2019 Pilot Wave Theory/Bohm • There are real Interpretation particles, which ride on pilot-waves • de Broglie which govern where • Bohm they go • Particle can only go David Bohm, FRS 1917-1992 where there is a wave If there is no wave, then the Sometimes called a particle can’t go to that position “hidden variable” theorem – not a good name! 7 8 • The Pilot Wave model got a boost in 2006, when • Very recent experiments (2015-2016) have cast doubt on this Couder and Fort noticed that bouncing droplets, could be “walked” along the wave that they The experiments were done generated by Tomas Bohr – the grandson https://www.youtube.com/watch?v=nmC0ygr08tE&feature=youtu.be of Nils Bohr https://www.youtube.com/w atch?v=5TypwAwmPew&feat ure=youtu.be https://www.quantamagazine.org/fa mous-experiment-dooms-pilot-wave- Stationary Bouncing Particles Walking particles alternative-to-quantum-weirdness- 20181011/ 9 10 Many Worlds Interpretation • Hugh Everett III (1930-1982) A new parallel universe is created after each quantum event • Popularized by Bryce Seligman Dewitt We can see the results from our own timeline But we must be able to https://blogs.scientificamerican.com/observations/the-difficult- see the results of other birth-of-the-many-worlds-interpretation-of-quantum-mechanics/ timelines Everett did not believe that the underpinnings of quantum mechanics lead naturally to the correspondence principle. 11 12 2 08/10/2019 Which is the original Monty? In our universe the particle must only go through one slit. BUT we Is there any such thing as “I”? can see the result of an alternate universe, where the particle goes Are the various Montys connected? through the other slit, because we observe the interference pattern. 13 14 Some systems which we measure, strongly interact with the surroundings, and we may not be able to make repeated Chad Orzel’s Interpretation measurements • https://www.forbes.com/sites/chadorzel/2019/09/ 17/many-worlds-but-too-much- metaphor/#50a5e5db625d Some systems do not interact strongly with the • The universe exists as one huge (exceptionally surroundings, and can be complicated) wavefunction, and we can only ever considered to be an sample a small part of that wavefunction approximately “stand alone” system 15 16 Still No Agreement on Interpretation! • We can use Schrodinger’s Equation to calculate many things, even if we don’t understand the interpretation Special Relativity • The physicist David Mermin describes his attitude to the When things move very fast Copenhagen Interpretation as “Shut up, and calculate” https://www.quantamagazine.org/why-the-many-worlds-interpretation-of-quantum- mechanics-has-many-problems-20181018/ 17 18 3 08/10/2019 The Speed of Light The Ether Wind Ether wind • Maxwells equations predict that the speed of light Tailwind c+v in a vacuum is c = 3.00 x 108 m/s • The earth was not expected to • This was confirmed in many experiments be stationary in the ether • The speed of light measured on • Most waves seen at this time (1880s) were earth should vary depending on mechanical waves. They needed a propagation the relative speed of the earth Su medium with respect to the ether n • e.g. sound needs air to propagate through • Headwinds and Tailwinds Headwind • Physicists assumed that EM waves must have some c-v propagation medium – the luminiferous ether 19 20 The Michelson-Morley Einstein’s Special Theory of Relativity (1905) Experiment • The laws of physics must be the same for all non- • Albert Michelson and Edward accelerating observers Morley • The speed of light in a Light from behind • Measured the speed of light Speed = c using a 35 km long vacuum has the same interferometer at various points value regardless of the Light from in front in the year (different places on velocity of the observer Speed = c the orbital path of the earth) and the velocity of the • A NULL RESULT source • There is no unique • No difference in the speed of v light at any time of the year inertial frame • NO LUMINIFEROUS ETHER (everything is relative!) 21 22 • At high speeds, near to the speed of light, the • When an object moves very quickly, time appears familiar equations in classical mechanics need to be to move at a different rate according to an outside modified by an extra factor 훾 observer • A clock travelling with the moving object does not 1 • The Lorentz factor 훾 = change speed 푣2 1− 푐2 Momentum = 푚푣 (Newton) Momentum = 훾푚푣 (Relativistic) To the stationary observer, the moving clock has moved more quickly. Hendrik Antoon Lorentz Less time elapses for the moving clock than the Nobel Prize 1902 stationary clock 23 24 4 08/10/2019 The Twin Paradox Quantum Mechanics and Special Relativity Quantum Particles Moving Very Quickly Scott Kelly (left) and his twin Scott spent a year on the brother Mark Kelly (right). International Space Station, moving Both astronauts at 27,000 km/h with respect to the Earth. His body clock slowed down very slightly compared to his twin Mark Mark aged slightly more than Scott (a few microseconds per day) 25 26 • Dirac used matrices to modify Schrödinger’s P.A.M. Dirac Equation to handle Special Relativity • Paul Adrien Maurice Dirac • British mathematician, physicist and engineer • Combined the Schrödinger Equation with Special The Dirac Equation Relativity to deal with quantum systems with • He noticed that it was possible to get negative particles moving at high speeds. energy solutions from the equation. • This was the first prediction of anti-matter 27 28 Antimatter Matter-Antimatter Annihilation • Solutions to the Dirac Equation predicted that for • If a matter particle meets the antimatter every particle of matter, there must be an counterpart they annihilate each other antiparticle (antimatter). • For the electron-positron reaction, the matter - disappears and is replaced by two gamma ray • The antimatter counterpart of the electron is the photons. (This conserves momentum and energy) positron • A free positron never has to go far in order to meet • It has exactly the same mass as the electron, but an electron. has a positive charge instead of negative + 29 30 5 08/10/2019 • When the positron and the electron annihilate each other, energy and momentum must still be • We use this pair production to localize the site of conserved cancer tumour • Tumours have a fast metabolism, so take up sugars • A pair of gamma ray photons, moving in faster then normal tissue opposite directions are produced • Fluorodeoxyglucose (18F) is a Electron - glucose analogue with a radioactive fluorine-18 Annihilation substituted instead of an –OH Positron + 09:09 31 31 32 • It concentrates at the site of the tumour • More positrons are produced in the tumour than in the surrounding normal tissue • They annihilate with electrons giving off gamma • It decays with a half-life of 110 minutes into rays oxygen, a positron and a neutrino • More gamma rays produced at the tumour than elsewhere 18 18 + 9퐹 → 8푂 + 푒 + 휈 Beta+ decay: Proton becomes a neutron, a positron and a neutrino 33 34 Dr Heather Williams (Medical Physicist at the Christie Hospital in Positron Emission Tomography Manchester) • An imaging technique using the production of the gamma rays to determine the site of the emission Normal Brain scan: false colour image 35 36 6 08/10/2019 Pair Production – Mass From Energy Creating Matter Out of • Pair Production, the reverse process to pair annihilation is possible Energy • A highly energetic photon, passing close to a nucleus can transform itself into a pair of particles, an More Quantum Weirdness electron and a positron • Mass is created during this process, since the photon has no mass 09:09 38 37 38 • Charged particles follow a spiral path in a magnetic field. • Opposite charges spiral in opposite directions Quantum Tunnelling Positron spirals this way How to get out of a box by quantum cheating Electron “Knock-on” electron from the target atom spirals this way 09:09 39 39 40 • Physicist talk about objects in “Potential Wells” Quantum Tunnelling • In classical physics, a particle trapped inside a potential well (the particle in the box) can never get out, unless extra energy is supplied, so it can “climb over” the wall. • Quantum physics allows us to cheat! Gravity Well • Minute Physics • Objects trapped in the well caused by the • https://www.youtube.com/watch?v=cTodS8hkSDg