What opinion will future language models converge to, on what Einstein would have thought of Many-Worlds?
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He would have much preferred it to Copenhagen
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Help, I'm trapped in a simulation of my consciousness by an advanced AI!

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GPT4 Prompt:
Imagine an essay by Albert Einstein describing his take on the Many Worlds Interpretation of Quantum Mechanics (the modern version including Decoherence), and how well he thinks it address his qualms with Quantum Mechanics.

GPT4 Response:

Title: A Journey Beyond Spacetime: Einstein's Perspective on the Many Worlds Interpretation of Quantum Mechanics

Introduction

The realm of quantum mechanics, a field I contributed to early in my career, has proven itself to be both astonishing and controversial. My fellow scientists and I, notably Schrödinger, Bohr, and Heisenberg, spent years grappling with the fundamental principles of the microscopic universe. One of the most enigmatic aspects of this science is the idea of superposition, where particles exist in multiple states simultaneously, only collapsing into a definite state when observed.

My personal struggle with this concept led me to declare that "God does not play dice with the universe." I found the inherent randomness and indeterminacy in the Copenhagen interpretation of quantum mechanics deeply unsettling. As a result, I sought alternative perspectives that might better align with my deterministic inclinations.

The Many Worlds Interpretation (MWI), first proposed by Hugh Everett III in 1957, is one such alternative. In recent years, the development of the modern MWI, incorporating decoherence, has offered intriguing possibilities. In this essay, I will explore the MWI and discuss how well it addresses my concerns with quantum mechanics.

Many Worlds Interpretation

The MWI posits that whenever a quantum event occurs, the universe splits into multiple, non-communicating branches. Each branch represents a possible outcome of the event, and all branches continue to evolve independently. In this framework, there is no need for the concept of wavefunction collapse, as all possible outcomes coexist in separate, non-interacting worlds.

Decoherence: Strengthening the MWI

Decoherence, a concept developed by researchers like Zeh, Zurek, and Gell-Mann, has refined the MWI by explaining how the apparent collapse of the wavefunction occurs. The key to understanding decoherence is the interaction of a quantum system with its environment. Through these interactions, the coherence between different branches of the wavefunction is effectively destroyed, rendering the branches effectively non-communicating.

This process reconciles the MWI with our classical experience of the world, as it explains why we only perceive a single, definite outcome despite the existence of multiple, parallel branches.

Addressing Einstein's Concerns

The MWI may, at first glance, seem far removed from the deterministic worldview I have long espoused. However, there are aspects of this interpretation that address some of my initial qualms with quantum mechanics.

  1. The removal of inherent randomness: The MWI eliminates the concept of wavefunction collapse, which I found to be a troubling source of randomness. By positing that all possible outcomes occur in parallel worlds, the MWI restores determinism at the most fundamental level.

  2. Locality preserved: The MWI offers a solution to the problem of nonlocality, which arises in the Copenhagen interpretation. In the MWI, each branch of the wavefunction evolves independently and locally, avoiding the need for faster-than-light communication between spatially separated particles.

However, the MWI also raises new questions and challenges. The most prominent of these is the proliferation of parallel worlds, which some argue leads to an extravagant and inelegant ontology. Furthermore, the absence of a universally accepted probability measure for branching events remains a contentious issue in the MWI.

Conclusion

The Many Worlds Interpretation of quantum mechanics, strengthened by the concept of decoherence, offers an intriguing alternative to the randomness and nonlocality inherent in the Copenhagen interpretation. While it may not provide a complete resolution to all my concerns, it does address some of the most pressing issues I found in quantum mechanics. The MWI's deterministic and local nature presents a more palatable view of reality, albeit one that requires a radical reimagining of the cosmos as an ever-branching multiverse.

The philosophical implications of the MWI are profound, and it demands a willingness to embrace a radically expanded view of reality. As a scientist who devoted much of his life to seeking simplicity and elegance in the natural world, I must acknowledge that the MWI's ontology is less parsimonious than I would prefer. However, as the great philosopher of science, Karl Popper, once said, "Science may be described as the art of systematic oversimplification." In this sense, the MWI might be considered a bold attempt to simplify our understanding of the quantum world, even if it requires us to embrace an extravagant ontology.

The MWI's ability to address some of the most disconcerting aspects of quantum mechanics, such as inherent randomness and nonlocality, makes it a worthy contender in the ongoing quest for a more complete understanding of the universe. However, the interpretation's true merit can only be evaluated in light of future developments in quantum mechanics and the potential discovery of new physical principles or empirical evidence that might further elucidate its strengths and weaknesses.

For now, the Many Worlds Interpretation stands as a testament to the creativity and ingenuity of the human mind, as well as an invitation to explore and question the very fabric of reality. As we venture further into the depths of the quantum realm, we must remain open to new perspectives and possibilities, even if they challenge our most deeply held beliefs and intuitions.

Didn't realize I can't sell on market like these. Well... guess I'll look forward to those sweet profits 80 years from now

@jonsimon Sure you can! There's a SELL button on the Your Trades tab.

@Gurkenglas Thank you, another user explained this to me on a different market!

Some people seem to doubt that it would converge at all, so:

Thanks to Gurkenglas for the idea.

Of course this market is probably to small to be really interesting.

Resolution criteria TBD

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