Related papers: MIP*=RE

MIP*=RE

URL: http://arxiv.org/abs/2001.04383v3
Date: Fri, 4 Nov 2022 07:15:20 GMT
Title: MIP*=RE
Authors: Zhengfeng Ji, Anand Natarajan, Thomas Vidick, John Wright, Henry Yuen
Abstract summary: We show that the class MIP* of languages can be decided by a classical verifier interacting with multiple quantum provers sharing entanglement. We provide a refutation of Connes' theory of von Neumann algebras.
Score: 9.42581332803306
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: We show that the class MIP* of languages that can be decided by a classical verifier interacting with multiple all-powerful quantum provers sharing entanglement is equal to the class RE of recursively enumerable languages. Our proof builds upon the quantum low-degree test of (Natarajan and Vidick, FOCS 2018) and the classical low-individual degree test of (Ji, et al., 2020) by integrating recent developments from (Natarajan and Wright, FOCS 2019) and combining them with the recursive compression framework of (Fitzsimons et al., STOC 2019). An immediate byproduct of our result is that there is an efficient reduction from the Halting Problem to the problem of deciding whether a two-player nonlocal game has entangled value $1$ or at most $1/2$. Using a known connection, undecidability of the entangled value implies a negative answer to Tsirelson's problem: we show, by providing an explicit example, that the closure $C_{qa}$ of the set of quantum tensor product correlations is strictly included in the set $C_{qc}$ of quantum commuting correlations. Following work of (Fritz, Rev. Math. Phys. 2012) and (Junge et al., J. Math. Phys. 2011) our results provide a refutation of Connes' embedding conjecture from the theory of von Neumann algebras.

Related papers

Quantum-Computable One-Way Functions without One-Way Functions [0.6349503549199401]
We construct a classical oracle relative to which $mathsfP = mathsfNP$ but quantum-computable quantum-secure trapdoor one-way functions exist. Our result implies multi-copy pseudorandom states and pseudorandom unitaries, but also classical-communication public-key encryption, signatures, and oblivious transfer schemes.
arXiv Detail & Related papers (2024-11-04T19:40:01Z)
Classical versus quantum queries in quantum PCPs with classical proofs [0.3004066195320147]
We generalize quantum-classical PCPs to allow for $q$ quantum queries to a classical proof. Surprisingly, this shows that we can amplify the promise gap from inverse to constant for constant query quantum-classicals. Even though we can achieve promise gap, our result also gives strong evidence that there exists no constant query quantum-classical PCP for $mathsfQCMA$.
arXiv Detail & Related papers (2024-11-01T18:00:56Z)
Signatures of Integrability and Exactly Solvable Dynamics in an Infinite-Range Many-Body Floquet Spin System [0.5371337604556311]
We show that for $J=1/2$ the model still exhibits integrability for an even number of qubits only. We analytically and numerically find that the maximum value of time-evolved concurrence ($C_mboxmax$) decreases with $N$, indicating the multipartite nature of entanglement.
arXiv Detail & Related papers (2024-05-10T04:13:16Z)
The Power of Unentangled Quantum Proofs with Non-negative Amplitudes [55.90795112399611]
We study the power of unentangled quantum proofs with non-negative amplitudes, a class which we denote $textQMA+(2)$. In particular, we design global protocols for small set expansion, unique games, and PCP verification. We show that QMA(2) is equal to $textQMA+(2)$ provided the gap of the latter is a sufficiently large constant.
arXiv Detail & Related papers (2024-02-29T01:35:46Z)
Towards large-scale quantum optimization solvers with few qubits [59.63282173947468]
We introduce a variational quantum solver for optimizations over $m=mathcalO(nk)$ binary variables using only $n$ qubits, with tunable $k>1$. We analytically prove that the specific qubit-efficient encoding brings in a super-polynomial mitigation of barren plateaus as a built-in feature.
arXiv Detail & Related papers (2024-01-17T18:59:38Z)
Guidable Local Hamiltonian Problems with Implications to Heuristic Ansätze State Preparation and the Quantum PCP Conjecture [0.0]
We study 'Merlinized' versions of the recently defined Guided Local Hamiltonian problem. These problems do not have a guiding state provided as a part of the input, but merely come with the promise that one exists. We show that guidable local Hamiltonian problems for both classes of guiding states are $mathsfQCMA$-complete in the inverse-polynomial precision setting.
arXiv Detail & Related papers (2023-02-22T19:00:00Z)
Connes implies Tsirelson: a simple proof [91.3755431537592]
We show that the Connes embedding problem implies the synchronous Tsirelson conjecture. We also give a different construction of Connes' algebra $mathcalRomega$ appearing in the Connes embedding problem.
arXiv Detail & Related papers (2022-09-16T13:59:42Z)
A lower bound on the space overhead of fault-tolerant quantum computation [51.723084600243716]
The threshold theorem is a fundamental result in the theory of fault-tolerant quantum computation. We prove an exponential upper bound on the maximal length of fault-tolerant quantum computation with amplitude noise.
arXiv Detail & Related papers (2022-01-31T22:19:49Z)
Annihilating Entanglement Between Cones [77.34726150561087]
We show that Lorentz cones are the only cones with a symmetric base for which a certain stronger version of the resilience property is satisfied. Our proof exploits the symmetries of the Lorentz cones and applies two constructions resembling protocols for entanglement distillation.
arXiv Detail & Related papers (2021-10-22T15:02:39Z)
Quantum Communication Complexity of Distribution Testing [114.31181206328276]
Two players each receive $t$ samples from one distribution over $[n]$. The goal is to decide whether their two distributions are equal, or are $epsilon$-far apart. We show that the quantum communication complexity of this problem is $tildeO$(tepsilon2))$ qubits when distributions have low $l$-norm.
arXiv Detail & Related papers (2020-06-26T09:05:58Z)
Quasi-polynomial time algorithms for free quantum games in bounded dimension [11.56707165033]
We give a semidefinite program of size $exp(mathcalObig(T12(log2(AT)+log(Q)log(AT))/epsilon2big)) to compute additive $epsilon$-approximations on the values of two-player free games. We make a connection to the quantum separability problem and employ improved multipartite quantum de Finetti theorems with linear constraints.
arXiv Detail & Related papers (2020-05-18T16:55:08Z)

This list is automatically generated from the titles and abstracts of the papers in this site.