About: We show that strong quantum entanglement can support a stable traversable wormhole without any explicit interaction or tunnelling term between the two boundary theories of the wormhole. Specifically we work with two complex SYK models. The entangled state is prepared using a tunnelling term in imaginary time but the tunnelling term is removed from the time evolution operator so the two complex SYK models are not coupled. Low temperature states show revival dynamics which is the hallmark of a traversable wormhole geometry. To send any meaningful information from one system to the other, one only needs to turn on a very small interaction term. The technique that we are employing can be applied to other systems to study aspects of quantum entanglement.

Facets (new session)
Description
Metadata
Settings
- owl:sameAs
- Inference Rule:

About: We show that strong quantum entanglement can support a stable traversable wormhole without any explicit interaction or tunnelling term between the two boundary theories of the wormhole. Specifically we work with two complex SYK models. The entangled state is prepared using a tunnelling term in imaginary time but the tunnelling term is removed from the time evolution operator so the two complex SYK models are not coupled. Low temperature states show revival dynamics which is the hallmark of a traversable wormhole geometry. To send any meaningful information from one system to the other, one only needs to turn on a very small interaction term. The technique that we are employing can be applied to other systems to study aspects of quantum entanglement. Goto Sponge NotDistinct Permalink

An Entity of Type : fabio:Abstract, within Data Space : wasabi.inria.fr associated with source document(s)

Attributes	Values
type	abstract
value	We show that strong quantum entanglement can support a stable traversable wormhole without any explicit interaction or tunnelling term between the two boundary theories of the wormhole. Specifically we work with two complex SYK models. The entangled state is prepared using a tunnelling term in imaginary time but the tunnelling term is removed from the time evolution operator so the two complex SYK models are not coupled. Low temperature states show revival dynamics which is the hallmark of a traversable wormhole geometry. To send any meaningful information from one system to the other, one only needs to turn on a very small interaction term. The technique that we are employing can be applied to other systems to study aspects of quantum entanglement.
subject	Space Geometry Tyrosine kinases Quantum mechanics
part of	Traversable wormhole without interaction
is abstract of	Traversable wormhole without interaction
is hasSource of	covid:ann/target/ed339d134d1266983a3217d42b577fafe3c50fa5 covid:ann/target/cd2b466b3680efc971120358ea1a87a981705328 covid:ann/target/1e0cdf28a53e911f06c9b3bfe1c14e92ee41bb39 covid:ann/target/73fba828c90b420cd8dd27f705350d3647565cd0 covid:ann/target/1f46d47ae093dce5b5f6ae53ddb80c7349ed2991 covid:ann/target/bdd2b40d284b0fa98066c5d02071eaecf97b5f57 covid:ann/target/e73dfcd0893ecd1b4f19867ae733f164dce138b0 covid:ann/target/87cbdf627c68237fe48fda87a0ed06f7ebdfa98a covid:ann/target/a4b24bcb247e85ba000159a20096caed30e23b11 covid:ann/target/41523188ea081008fada449466203b46fe66d66d covid:ann/target/ac6b727f0990f6df677a3a7c7252dfd16aae2af2 covid:ann/target/a96e1dbe8ac6d79de68427276cf13a14ee6be8f9 covid:ann/target/acdc16e51f71df60db530b02694b7edbe120d41f covid:ann/target/7de9c64b9686f1c81e72ff4d3df17067c271dee4 covid:ann/target/106bd1a768fab484981954a854a880d50ced6691 covid:ann/target/292473555ce7b1ec77953dc8df0c66dc7ad7319a covid:ann/target/9651a960dd0b76db6108d3be5ee2aba75ad79d1a covid:ann/target/b6f845b489ad75e20260b4338ac8928878975a22 covid:ann/target/cb079cd13ba495460d4056ecadb12c64abd02924 covid:ann/target/e16200b5b0a70701f1dc255a95feffa1b8ab8ddc covid:ann/target/4e9a45d222d8aad967bfcfdcd38f5d528101a972 covid:ann/target/6758f533eca109d8d8daaae38373b8482d02d58e covid:ann/target/be55bbddfd488dddacff8e99fc566819fb66704e covid:ann/target/0833f1ba3bbd5ff558535e78fa6ab2ac8639aecc covid:ann/target/65bbdf11adf44c5a1b637c3644690e2d5671ff6e covid:ann/target/22a351cc4d9a23d0792ff69e40a1400cabe6fa5e covid:ann/target/7ebb569023721da1294339f4df26f412e034ca71 covid:ann/target/393b6be7c33a883354c00a8058ed9d4d3f1366fe covid:ann/target/827334a1dec126499c01d506e1337d3daa8ea4e0 covid:ann/target/d032048f75d4e288abd58b62796297f69031426b covid:ann/target/d7b64aca3469ede111a3b30dc83f6b693fd02eb6 covid:ann/target/18558f763c84df897e4e7473f6d44ba88cdcb3ae covid:ann/target/eb7d86eec560fc9655035867bf8db4c997c65837 covid:ann/target/fa5ad06836d72808407fd9c9399c1eec8ac52729 covid:ann/target/d460c34282e9ae9c95cd29f85215f85701896fe3 covid:ann/target/d85df8b8155de40f7952d8bd02310e39769427c3 covid:ann/target/bcb0305afa825873d7729b4f88e0866fb7537b89 covid:ann/target/573768a7b4cd71f647d5984bfcca9703c62008c5 covid:ann/target/868a9151e9447816d428467d1cb6d367de3b298c covid:ann/target/71134eef7c8f414cd82f932ba10f597dcbf18930 covid:ann/target/2f72f665b25c1283c6db794aff3faf594eada40a covid:ann/target/a93122f627228ded5f890bc36fa1fc28c1084271 covid:ann/target/84bae7e7c2f0ccff4979e4664c1fb808c2b8adf9 covid:ann/target/f8a2501024b59768fc217ec915351383d3fec74c covid:ann/target/45a8f63fb3acee3daba7f89a386c44400d9fbc84 covid:ann/target/3a79976c4c39c137464130534592fdc247687287 covid:ann/target/bac4843f9613a40b5923418ded3a9e6dfb7fba6e covid:ann/target/76f1df7ad2f05c1824375a8b19eab3655f605a00 covid:ann/target/f78c29f27af5adda686ad2f4306967ef55028bce covid:ann/target/2c186112ddcf89cdf5b694dbbccd3c543630a8fb covid:ann/target/4ee08fe17d8a64a4ef5256cf434a4b68e25ec443 covid:ann/target/2c99c7f2f2f27aa0360fd5358b9277b0b5fcc477 covid:ann/target/87124d4e60da75de914b8e00ecd8657d9109ae25 covid:ann/target/2ac34369034cee947982bdd88c0856bdb1588b76 covid:ann/target/4bebdea8f0f6ebc72f270ff137eae33e90cd6469 covid:ann/target/dd4ab040836dbcf9d29e774e4dd2c61c4c0a9f90 covid:ann/target/63efefaf8ddeefe65005c2d2b73cd152387eb640 covid:ann/target/2604099902da98cc3f8cc5af8ded1c145f6c7238 covid:ann/target/2054ca408b12133a7f684ac0bca6f0178c425fdf covid:ann/target/81a10ec31f3b35ce2105cf194f335042e6c3be56 covid:ann/target/663a3f153e59e41a840d9140dab850acdc0e5459 covid:ann/target/1801dfd834378846e3627e1d6a5feda57e85b185 covid:ann/target/2bd776e8e428b397663c953daf57b223d3cb5411 covid:ann/target/5bc72e4fa3eab88bcd8fd922f273334e2be25bfa covid:ann/target/a3e02e6aeff9feaa3680dea6463673b472dbaa27 covid:ann/target/b097803d7126c04cf7110ead5f45df90e063112b covid:ann/target/1fc33b3c6d9d77c89690815e24dbfffe04da3d65 covid:ann/target/a3f9c6e8b6011849b6bb9846a41b71e035924845 covid:ann/target/ea0e03908453dca8b372f05c711e9a308f0a6749 covid:ann/target/6e3456e7a04af0a0ea505f4be82891efeb6bc8cf covid:ann/target/72e56ecac73445c1127105421bd02886aee01593 covid:ann/target/27d4b1169536f16300253832c5d847ec15ae12c8 covid:ann/target/4c80d3975216e7fd9f6f69486862b75d959a3936 covid:ann/target/5d633fae471012236f283570eaa4b323462a19a3 covid:ann/target/7e9e4cb4686e264d2cfa4ad2482aca0048f80271 covid:ann/target/c82c375ba7febbc13b2174c8d27d26a1674ddf60 covid:ann/target/f1e3c6974abe551a6dea79cd955b8c461ef9607e covid:ann/target/5822ab31bef44e4f0523ac1c23d04159bc76353d covid:ann/target/1aaef9271840b3e6bf78eb46092ac2ffec3a44cf covid:ann/target/49b9996c6c558c6e0c863be44a3cb75532e771db covid:ann/target/76519d95e1771b1b0ceded2201e0de3174350898 covid:ann/target/a7975770464f6e7a60fa2e6192bae9f37135339e covid:ann/target/12fd9f08d7f5dd6b0736900c3d02a1fbaa199217 covid:ann/target/b7fca016feeb5b35f0ee7d6c7c0a2dad82587d7b covid:ann/target/c9c591d6c5a9cc73bff9fbf434646ca5a3e328fe

Faceted Search & Find service v1.13.91 as of Mar 24 2020

Alternative Linked Data Documents: Sponger | ODE Content Formats:

RDF

ODATA

Microdata

About

OpenLink Virtuoso version 07.20.3229 as of Jul 10 2020, on Linux (x86_64-pc-linux-gnu), Single-Server Edition (94 GB total memory)
Data on this page belongs to its respective rights holders.
Virtuoso Faceted Browser Copyright © 2009-2025 OpenLink Software