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Our Place in the Multiverse
Calculating the odds that intelligent observers arise in parallel universes—and working out what they might see.

Sounding the Drums to Listen for Gravity’s Effect on Quantum Phenomena
A bench-top experiment could test the notion that gravity breaks delicate quantum superpositions.

Watching the Observers
Accounting for quantum fuzziness could help us measure space and time—and the cosmos—more accurately.

Bohemian Reality: Searching for a Quantum Connection to Consciousness
Is there are sweet spot where artificial intelligence systems could have the maximum amount of consciousness while retaining powerful quantum properties?

Quantum Replicants: Should future androids dream of quantum sheep?
To build the ultimate artificial mimics of real life systems, we may need to use quantum memory.

October 18, 2017

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Schrödinger’s Cat Meowing Between Many Worlds and Collapse Models
By CATALINA CURCEANU • Jul. 28, 2017 @ 16:59 GMT

This post is co-written by FQXi members Catalina Curceanu (LNF-INFN, Italy) and Angelo Bassi (Univ. of Trieste and INFN, Italy):

In May, we organised an FQXi-sponsored workshop dedicated to Quantum Foundations at the Laboratori Nazionali di Frascati, LNF-INFN, in Italy, on "'Events' as we see them: experimental test of the collapse models as a solution of the measurement problem." (The event was co-organised with our colleague Kristian Piscicchia, of the Museo Storico della Fisica e Centro Studi e Ricerche Enrico Fermi Roma, and LNF-INFN Frascati, Italy.)

The aim of the workshop was to discuss the possible limits of the validity of "standard quantum mechanics" and, related to this, collapse models and, more generally, theories which go beyond standard quantum theory and the experiments aiming to test them. In this context, the role which gravity might play was vividly discussed.

From the theoretical point of view, since the almost 100 years old Einstein-Bohr debate, quantum mechanics never stopped raising questions about its interpretation and possible limits. In particular, the transition from the microscopic world, where systems are observed in a superposition of different quantum states, to the macroscopic world, where systems have well defined properties (the so-called "measurement problem"), continues to puzzle (at least part of) the scientific community. For this reason theories/models beyond the standard quantum formulation are explored.

From the experimental point of view quantum theory is certainly the best verified available theory. It is therefore a very compelling challenge to look for possible small violations predicted by alternative theories/models. The aim of ambitious experiments is either to put stronger observational bounds on the new models, i.e. on the models parameters, or, much more exciting, to find violations of standard quantum mechanical predictions. In this framework, a deeper understanding of the possible limits of the validity of the quantum superposition principle is a real experimental challenge.

40 experts and young scientists, theoreticians and experimentalists, and also some philosophers, took part to the workshop and had vivid discussions.

In what follows, we present some of the items discussed during the workshop: Schrödinger’s cat meowing.

How well can we find out whether a wave function has collapsed? asks Roderich Tumulka of Eberhard-Karls University. If the GRW (Ghirardi-Rimini-Weber) theory were true, then how could we measure the number of collapses that have occurred for a given physical system in a given time interval? Roderich provided a mathematical analysis of some simple cases. It turns out that there are limitations to knowledge—that is, that some well-defined quantities cannot be reliably measured empirically.

Matteo Morganti of University of Roma Tre, Roma, discussed the attempt(s) to solve the measurement problem by making quantum mechanics a ‘many-world theory’. Starting from the naïve idea that measurement events literally cause the universe to branch, he moved back to the original ‘relative-state’ proposal made by Everett, and assessed to what extent it really qualifies as a many-world formulation of quantum mechanics. In the process, he considered, albeit briefly, some important issues concerning probabilities, empirical adequacy, decoherence and the philosophical status of the theory (or theories) in question.

Experimental bounds on collapse models from gravitational wave detectors were illustrated by Matteo Carlesso, Univ. of Trieste, Italy. Wave function collapse models postulate a fundamental breakdown of the quantum superposition principle at the macroscale. Upper bounds on the collapse parameters, which can be inferred by the gravitational wave detectors LIGO, LISA Pathfinder and AURIGA were shown in the framework of the Continuous Spontaneous Localization (CSL) model. These experiments exclude a large portion of the CSL parameter space at high correlation length, or rc, values.

Kristian Piscicchia has shown that for low values of rc, including that originally proposed by GRW, the best constraints come from the measurement of the spontaneous radiation. The interaction with the collapsing stochastic “noise” causes the emission of electromagnetic radiation for charged particles, which is not predicted by standard quantum mechanics, an effect known as spontaneous radiation emission. Comparing the X-ray emitted spectrum measured with ultra-pure Germanium detectors with the expected spontaneous radiation prediction allows to obtain the most stringent limit on the lambda collapse parameter for values of rc below the micron range, and in the near future orders of magnitude better limits are reachable.

An interesting presentation about Cosmic Inflation and Quantum Mechanics was held by Jerome Martin of CNRS, France. According to cosmic inflation, the inhomogeneities in our universe are of quantum mechanical origin. This scenario was recently spectacularly confirmed by the data obtained by the European Space Agency (ESA) Planck satellite. In fact, cosmic inflation represents the unique situation in physics where quantum mechanics and general relativity are needed to establish the predictions of the theory and where, at the same time, we have high accuracy data at our disposal to test the resulting framework. So inflation is not only a phenomenologically very appealing theory but it is also an ideal playground to discuss deep questions in a cosmological context. Jerome reviewed and discussed those quantum-mechanical aspects of inflation. He explained why inflationary quantum perturbations represent a system which is very similar to systems found in quantum optics. He also pointed out the limitations of this approach and investigated whether the large squeezing of the perturbations can allow us to observe a genuine observational signature in the sky of the quantum origin of the cosmological fluctuations.

Hendrik Ulbricht of the University of Southampton, UK, presented recent results on manipulation of levitated optomechanics for tests of fundamental physics, in particular the trapping and cooling experiments of optically levitated nanoparticles. The cooling of all translational motional degrees of freedom of a single trapped silica particle to ~1mK simultaneously at vacuum of 10-5 mbar using a parabolic mirror to form the optical trap were reported, together with the squeezing of a thermal motional state of the trapped particle by rapid switch of the trap frequency. Such experiments are relevant to pave the way towards an experimental test of both the quantum superposition principle and the interplay between gravity and quantum mechanics.

Towards a platform for macroscopic quantum experiments in space, was the subject discussed by Rainer Kaltenbaek of University of Vienna, Vienna Center for Quantum Science and Technology, Faculty of Physics, Austria. Recent developments have rendered space an increasingly attractive platform for quantum-enhanced sensing and for fundamental tests of physics using quantum technology. In particular, there already have been significant efforts towards realizing atom interferometry and atomic clocks in space as well as efforts to harness space as an environment for fundamental tests of physics using quantum optomechanics and high-mass matter-wave interferometry. Rainer presented recent efforts in mission planning, spacecraft design and technology development towards this latter goal in the context of the mission proposal MAQRO and ESA's recent call for New Science Ideas.

Yaakov Fein of the University of Vienna, Austria, discussed the progress at LUMI: the Long Baseline Universal Matter-Wave. At LUMI a Kapitza-Dirac-Talbot-Lau interferometer scheme with a one-meter grating separation is exploited. The aim is to detect interference at a mass scale beyond 100,000 amu, as well as to investigate massive and complex biomolecules, including bounds which can be placed on (certain) spontaneous collapse models.

Mauro Paternostro of CTAMOP, Queen's University Belfast, Ireland, introduced the entanglement between masses as a probe of the quantum nature of gravity. Interactions between two material objects are mediated by fields. If quantum entanglement is created between two such objects due to their interaction, then it follows that the "mediating" field must have been a quantum entity. Mauro first showed that the states of two micron dimension test masses in adjacent matter-wave interferometers could be detectably entangled solely through their mutual gravitational interaction. Then he argued that the purely gravitational mechanism for this entanglement implies that witnessing it is equivalent to certifying the quantum nature of the gravitational field that mediates the entanglement.

The workshop testifies that we are moving from a fruitful present in Quantum Foundation towards an even more exciting future: not only for a better understanding of the quantum universe we live in, but also to set the basis for future quantum technologies on earth and in space.

More information, including the files of the various presentations, can be found on the workshop dedicated web-page.

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Wandering Towards a Goal: Winners Announcement
By BRENDAN FOSTER • Jul. 4, 2017 @ 13:08 GMT

We asked the question: how do mindless mathematical laws give rise to aims and intentions. So how does it happen? Well, we’re not going to just tell you the answer. You’ll have to read it for yourself — in our winning essays, which we are now happy to announce!

We have an unusual outcome this time. Perhaps unsurprisingly, the contest question turns out to be rather controversial, with not just the essayists but also the panelists holding quite diverging views. Despite a lot of effort and good-faith attempts to find common ground, in the end the jury was deadlocked along several dimensions. In the end they decided the fairest representation of their collective opinions would be — a tie for first (and second) place. In fact, a 3-way tie.

Sharing the top spot are the entries from Larissa Albantakis (A Tale of Two Animats), Carlo Rovelli (Meaning and Intentionality = Information + Evolution), and Jochen Szangolies (Von Neumann Minds). The panel elected to pool the prize money for the top 3 spots, a total of $20,000, and split it evenly. Thus each of our 3 top winners will receive $6,666.

Visit our page of winners to also see our third and fourth prize winners, and find links to each winning essay. Also awarded was a special “community choice” award for the entry from George Ellis (Wandering Towards a Goal), which was well liked by many and, thanks to George’s involvement, had high levels of community engagement and forum interaction, which is a lot of what makes these contests worthwhile.

We look forward to our next contest, which we hope to announce soon.

Thanks to our sponsors, The Peter and Patricia Gruber Foundation, for making it possible. We also thank our diligent review panel. And last of all, we give great thanks to all of our entrants — we appreciate the effort you put into writing the entries, as well as reading and discussing them. We hope you will join us again for the next one.
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We Are All Connected
By BRENDAN FOSTER • May. 5, 2017 @ 21:25 GMT

Can you write a song about physics that is actually a good song? Not a joke song or a spoof song; not a song whose only purpose is to teach you the parts of an equation. A song that is on its own simply a good song, but that is also somehow about physics.

To do that you have to understand at a deep, intuitive level what physics tells us about our world. And then you have to translate that into music.

I know of one person who can do it. Sabine Hossenfelder has just released two new songs, "Catching Light" and "Schrödinger’s Cat". To go with the songs, there are two excellent videos that include short explainers of the physics from Sabine. I am happy to say the videos were funded by an FQXi mini-grant.

As well as a songwriter and videomaker, Sabine is a physics research fellow at the Frankfurt Institute for Advanced Studies, where her research is supported in part by an FQXi grant for her project on spacetime defects.

There is more information about the videos on Sabine’s blog.

(And for an earlier song, which won “best/worst earworm” in our FQXi video contest, watch “I saw the future”.)
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Towards a Goal — Two Weeks to Go
By BRENDAN FOSTER • Feb. 21, 2017 @ 14:45 GMT

We are not slouching towards our goal, we are not wandering towards it, we are stepping firmly towards it.

We have just under two weeks left until the closing date of our 2017 essay contest, Wandering Towards a Goal, and we have over 80 entries so far. (60 posted, and the rest in processing.) Historically, the number of entries at this moment in the contest triples over the last two weeks. At this rate, we may end up with 240, which smashes our past record.

The due date to enter is next Friday March 3, 2017, just before midnight Eastern Time. Take some time to read our summary of the theme, and the full rules; then think deeply and creatively; then write your essay!

You can also read submitted essays and leave comments and questions for the authors.

Good reading, good writing, and good luck.
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Review of “A Big Bang in a Little Room: The Quest to Create New Universes” by Zeeya Merali
By IAN DURHAM • Feb. 9, 2017 @ 16:51 GMT

In all the talk of the multiverse that gets tossed around these days, there's a subtle but important point that is often lost: there are really two completely different notions of a multiverse. What one thinks of when someone utters the word "multiverse" likely depends on whether one is most influenced by cosmology or by quantum physics. To the latter, the multiverse is typically viewed in the context of the Everett-DeWitt interpretation of quantum mechanics in which every process that includes more than one possible outcome, leads to a bifurcation of the universe in which the process occurred, into multiple universes, one for each possible outcome of the process. In such a multiverse (whose core idea is due more to DeWitt than Everett), everything that can happen, will happen.

In the inflationary multiverse, each "universe" is really a patch of space that becomes isolated due to eternal inflation. This is subtly different than the Everett-DeWitt model which suggests an actual bifurcation of reality. As it turns out, the difference could also have ethical and moral implications, some of which are discussed in Zeeya Merali's new book A Big Bang in a Little Room: The Quest to Create New Universes (Basic Books, 2017; $27.99).

Merali's book explores the quest by some physicists to produce new, "baby" universes in a lab. As preposterous as it sounds, the idea is largely grounded in accepted physics, though does remain highly speculative. In an Everett-DeWitt model, new universes are constantly being created ad infinitum as we blithely go about our day. There appears to be little we could do to affect change in any branching universe within this multiverse model. On the other hand, the inflationary universe model of the multiverse holds the promise of intentionally planning the creation of a baby universe which raises the thorny question of whether we would be responsible for the suffering of any living beings produced in that universe. We would, to some extent, be playing God.

These and other issues are tackled head-on in Merali's book, but in an engaging and subtle manner. The book is largely constructed from a series of interviews with physicists around the globe who are either actively thinking about how to create baby universes or who played a role in the development of inflationary theory. As someone who has been interviewed by Merali multiple times, I can personally attest to her ability to make the interviewee feel at ease and this sense clearly comes across in the book. Interviews are more like discussions with Zeeya.

One get’s the sense, though, that this project was less about writing a book and more about her own quest to more fully understand the universe. At times, one gets the impression that she is wrestling with some deeply personal questions. Far from detracting from the narrative, however, I think it adds to the human aspect of the story.

I did have a few minor quibbles here and there, but Merali is an accomplished scientist herself having received her PhD in physics from Brown University under noted cosmologist Robert Brandenberger, and so some of my quibbles might be considered "professional differences." In all, it was an enjoyable book that addressed an exciting area of modern physics research in a thought-provoking way. For anyone interested in the "big questions," this book is essential reading since it deals with perhaps the biggest question of all: can we—should we—humble human beings create a universe?

A Big Bang in a Little Room: The Quest to Create New Universes is available to buy here.
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