Suppose Alice and Bob are both asked to prepare a meal. Alice likes Chinese, Bob likes Italian. They each pick their favorite recipe, shop at the local specialty store, and carefully follow the instructions. But when they take their dishes out of the oven, they are in for a big surprise. The two meals turn out to be identical. We can imagine the existential questions Alice and Bob must ask themselves. How can different ingredients produce the same dish? What does it even mean to cook Chinese or Italian? And is their approach to preparing food totally flawed?
This is exactly the perplexity experienced by quantum physicists. They have found many examples of two completely different descriptions of the same physical system. In the case of physics, instead of meats and sauces, the ingredients are particles and forces; the recipes are mathematical formulas encoding the interactions; and the cooking process is the quantization procedure that turns equations into the probabilities of physical phenomena. Just like Alice and Bob, quantum physicists wonder how different recipes lead to the same outcomes.
Did nature have any choice in picking its fundamental laws? Albert Einstein famously believed that, given some general principles, there is essentially a unique way to construct a consistent, functioning universe. In Einstein's view, if we probed the essence of physics deeply enough, there would be one and only one way in which all the components โ matter, radiation, forces, space and time โ would fit together to make reality work, just as the gears, springs, dials and wheels of a mechanical clock uniquely combine to keep time.
The current Standard Model of particle physics is indeed a tightly constructed mechanism with only a handful of ingredients. Yet instead of being unique, the universe seems to be one of an infinitude of possible worlds. We have no clue why this particular combination of particles and forces underlies nature's structure. Why are there six "flavors" of quarks, three "generations" of neutrinos, and one Higgs particle? Furthermore, the Standard Model comes with 19 constants of nature โ numbers like the mass and charge of the electron โ that have to be measured in experiments. The values of these "free parameters" seem to be without any deeper meaning. On the one hand, particle physics is a wonder of elegance; on the other hand, it is a just-so story.
If our world is but one of many, how do we deal with the alternatives? The current point of view can be seen as the polar opposite of Einstein's dream of a unique cosmos. Modern physicists embrace the vast space of possibilities and try to understand its overarching logic and interconnectedness. From gold diggers they have turned into geographers and geologists, mapping the landscape in detail and studying the forces that have shaped it.
The game changer that led to this switch of perspective has been string theory. At this moment it is the only viable candidate for a theory of nature able to describe all particles and forces, including gravity, while obeying the strict logical rules of quantum mechanics and relativity. The good news is that string theory has no free parameters. It has no dials that can be turned. It doesn't make sense to ask which string theory describes our universe, because there is only one. The absence of any additional features leads to a radical consequence. All numbers in nature should be determined by physics itself. They are no "constants of nature," only variables that are fixed by equations (perhaps intractably complicated ones).
Which brings us to the bad news. String theory's space of solutions is vast and complex. This is not unusual in physics. We traditionally distinguish between fundamental laws given by mathematical equations, and the solutions of these equations. Typically, there are only a few laws, but an infinite number of solutions. Take Newton's laws. They are crisp and elegant but describe an incredibly wide range of phenomena, from a falling apple to the orbit of the moon. If you know the initial conditions of a specific system, the power of these laws allows you to solve the equations and predict what is going to happen next. We do not expect, nor demand, an a priori unique solution that describes everything.
In string theory, certain features of physics that we usually would consider laws of nature โ such as specific particles and forces โ are in fact solutions. They are determined by the shape and size of hidden extra dimensions. The space of all of these solutions is often referred to as "the landscape," but that is a wild understatement. Even the most awe-inspiring mountain vistas pale in comparison with the immensity of this space. Although its geography is only marginally understood, we know it has continents of huge dimensions. One of the most tantalizing features is that possibly everything is connected โ that is, every two models are connected by an unbroken path. By shaking the universe hard enough, we would be able to move from one possible world to another, changing what we consider the immutable laws of nature and the special combination of elementary particles that make up reality.
But how do we explore the vast landscape of physical models of the universe that might easily have hundreds of dimensions? It's helpful to visualize the landscape as a largely undeveloped wilderness, most of it hidden under thick layers of intractable complexity. Only at the very edges do we find habitable places. In these outposts, life is simple and good. Here we find the basic models that we fully understand. They are of little value in describing the real world, but serve as convenient starting points to explore the local neighborhood.
A good example is QED, the theory of quantum electrodynamics that describes the interactions between matter and light. This model has a single parameter, called the fine-structure constant ฮฑ, which measures the strength of the force between two electrons. Numerically, it is close to 1/137. In QED, all processes can be seen as arising out of elementary interactions. For example, the repulsive force between two electrons can be visualized as an exchange of photons. QED asks us to consider all possible ways that two electrons might exchange a photon, which in practice would mean that physicists have to solve an infinite sum of great complexity. But the theory also offers a way out: Each additional photon exchange adds a term that includes ฮฑ raised to an additional power. Since this is a relatively small number, the terms with many exchanges make only a small contribution. They can be neglected in an approximation to the "real" value.
We find these weakly coupled theories at the outposts of the landscape. Here the strength of the forces is small and it makes sense to talk about the shopping list of elementary particles and the recipe that computes their interactions. But if we leave the immediate environment and travel more deeply into the wilderness, the couplings become large and each additional term in the expansion grows more important. Now we can no longer distinguish the individual particles. Instead they dissolve into an entangled mesh of energy like the ingredients of a cake in a hot oven.
However, not everything is lost. Sometimes the path through the dark wilderness ends at another outpost. That is, at a different well-controlled model, this time made out of a completely different set of particles and forces. In such cases, there are two alternative recipes for the same underlying physics, just as with Alice and Bob's dishes. These complementary descriptions are called dual models, and the relation between them a duality. We can consider these dualities as a grand generalization of the famous particle-wave duality discovered by Heisenberg. For Alice and Bob, it takes the form of a translation between Chinese and Italian recipes.
Why is this all so exciting for physics? First of all, the conclusion that many, if not all, models are part of one huge interconnected space is among the most astonishing results of modern quantum physics. It is a change of perspective worthy of the term "paradigm shift." It tells us that instead of exploring an archipelago of individual islands, we have discovered one massive continent. In some sense, by studying one model deeply enough, we can study them all. We can explore how these models are related, illuminating their common structures. It is important to stress that this phenomenon is largely independent of the question of whether string theory describes the real world or not. It is an intrinsic property of quantum physics that is here to stay, whatever the future "theory of everything" will turn out to be.
A more dramatic conclusion is that all traditional descriptions of fundamental physics have to be thrown out. Particles, fields, forces, symmetries โ they are all just artifacts of a simple existence at the outposts in this vast landscape of impenetrable complexity. Thinking of physics in terms of elementary building blocks appears to be wrong, or at least of limited reach. Perhaps there is a radical new framework uniting the fundamental laws of nature that disregards all the familiar concepts. The mathematical intricacies and consistencies of string theory are a strong motivation for this dramatic point of view. But we have to be honest. Very few current ideas about what replaces particles and fields are "crazy enough to be true," to quote Niels Bohr. Like Alice and Bob, physics is ready to throw out the old recipes and embrace a modern fusion cuisine.
Robbert Dijkgraaf is director and Leon Levy Professor at the Institute for Advanced Study in Princeton, New Jersey.
Reader Comments
Particles? With masses of space around them .... riiiight!
It is all vibration. We are surrounded by massive currents.
If they live long enough, these guys, the time/space cowboys will be terribly embarrassed by their simplistic, illogical thinking.
I'm still waiting for one of them to live that long.
Hmm...
Hmm...
You know - the "Periodic Table" - Element 43.
Anybody got an answer?
If not - let me suggest quantum physics is nothing but imagination....mostly gone wrong.
~
BK
ps - rumor I heard is some physicist think String Theory is total bs run by sycophant tyrants . I suspect they are postmodernist believers - thinking they can define the universe - even though their theory is proven bs....in the minds of other physicists with calmer disposition I reckon...it just a rumor.
~
OK - I'll tell more - sometimes when driving I enjoy listening to articles from Sott.net - that is a place I appreciate no doubt. Anyhow - this time I listened to an article from Lew Rockwell - and it had a pompous physicist in it who said string theory adherents are harmful and hateful - so that informed my sentiment.
OK?
Ken
#43.
Why....why....why...
and - who was the 43rd President in the us of a?
George Bush ( junior ) I think - so final question....
Is that a coincidence?
(ha, ha.....
ps - this is an edit and George Bush senior - he was a harmful person in so many ways....no doubt on that - him and his pal Cheney - and his daughter as well - and really - all the folks from the so-called effing "insurrrection" (my ass) on 1/6 ought be released post-haste.
If you want to know the history of the "neutron" concept - Cavendish and all - just ask - I'll tell why I think what I do.
This fella - James Chadwick - was a tool I think - of bad ideas pushed too far and too long now.
So I reckon - Tis WAR - let the string theorist prove their ideology - if they can't - prove that a "neutron" exists.....I doubt anybody can - and I don't think such a thing exist - "neutral" my ass.
What you think?
BK
ps - I don't think neutrons exist.....the 1st fudge factor made when the science of it was not understood - that is why quantum physics is such a soft science - might as well call it sociology I suppose.
pss what U think?
~
no edits on this and eff typos - and really - calculus is flawed at the edges - that is PROVEN.
I don't think neutrons exist.
BK, 111624 1446 - I've been on the "record" on this for close to 20 years....
1. Neutrons do NOT exist
2. Particles in the mind of quantum physicist and string theory are the ideologies of folks living in their minds of imagination and they are NOT real - and the universe is really "electric" - positive and negative - no neutrons accepted.
~
The thought I'm sharing is they "keep on coming up with "new" particles" - I call them fudge factors digging a hole for themselves in imagination wrong - proven basically now - with high probability.
What U think?
Regards,
Ken
Anyhow - anybody got an explanation for why #43 is the first radioactive element?
Anybody - any quantum physicist got an answer for that - and string theory advocate....
anybody....
???
~
Here is a clue I think - number 43 is a prime number.....
and how many primes come before it?
Well you got 1, 2, 3, 5, 7, 11, 13, 17, 19, 23, 29, 31, 37.....
13 prime number before 43 - and 13 is prime as well....
~
hell-bells - that is better than another "particle" these string theory adherents keep creating in hopes of holding onto a flawed post-modernist theory is my humble peasant opinion - but just ignore my ass - I'm a dirt farmer from NC and VA.
Neutrons have no number.
Neutrons don't exist.
duh...
Have a hug.
But - don't get me wrong - I love a good debate.
I just think now - some bullies need a hard lesson - long time coming....
time will tell.
[Link] - this is from a site where I explain my thoughts on the lack of existence of neutrons and black holes as well - all based upon calculus - flawed at the edges:
Us folks in the Appalachia area got a similar way of expressing thoughts when push comes to shove - but I'll keep that close to home for the time being!
1. A link can be created by typing in the "url" address - and then on sott.net shows up as a " [Link ]" with blue text normally - a link to click upon, but you can hover over the "Link" and see the address prior to clicking upon it.
2. Other links are made by making contact in communication and I assume you are aware of how to make links of that nature.
3. In general links per #2 are best made face-to-face.
~
I hope this is helpful - and I'm a big believer in making links - but truly - face-to-face is best! So, just like Schumacher, I think "Small is Beautiful", and just like Kropotkin I think "Mutual Aid" is better. And truly - Darwin's ideas were contorted by a some 19th century elitist and then they spread that contortion to their 20th century "brethren", but in the 21st century - by now for goodness sake - we all ought know better is what I think.
Regards to you!
Ken
ps - Go Bills! Big game today - it might all be "entertainment" but I don't care - I cheer for my team from Buffalo and that is that. Please let me know if this didn't answer your question, and if so - ask more specifically please what you want me to provide in response....I'll do my best - I'm a man play fair - I think barter is the best form of trade! I also think many quantum physicists have literally "lost their minds"...
All I can be sure of is, we continue to look for order in our existence. The answers may just be in simplicity.
Knowledge and power have brewed a great deal of suffering. Simple things, makes me smile.
Bless your โค๏ธ + the mystics toi.pup
Amen
i've got a secret.
but i'm not going to tell.
and the only way you will ever know.
is to cut me into little pieces.
millions, billions, trillions of them.
keep cutting.
keep counting.
never stop.
then you'll know my secret.
for sure...
ned,
out
And ... Math is a tool, but not a science. The map is not the landscape.
And statistics (a.k.a. "possibilities") prove nothing .