ActivityPub Viewer

A small tool to view real-world ActivityPub objects as JSON! Enter a URL or username from Mastodon or a similar service below, and we'll send a request with the right Accept header to the server to view the underlying object.

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{ "@context": [ "https://www.w3.org/ns/activitystreams", { "ostatus": "http://ostatus.org#", "atomUri": "ostatus:atomUri", "inReplyToAtomUri": "ostatus:inReplyToAtomUri", "conversation": "ostatus:conversation", "sensitive": "as:sensitive", "toot": "http://joinmastodon.org/ns#", "votersCount": "toot:votersCount", "blurhash": "toot:blurhash", "focalPoint": { "@container": "@list", "@id": "toot:focalPoint" }, "Hashtag": "as:Hashtag" } ], "id": "https://social.uibk.ac.at/users/uniinnsbruck/statuses/111934744466713545", "type": "Note", "summary": null, "inReplyTo": null, "published": "2024-02-15T09:17:34Z", "url": "https://social.uibk.ac.at/@uniinnsbruck/111934744466713545", "attributedTo": "https://social.uibk.ac.at/users/uniinnsbruck", "to": [ "https://www.w3.org/ns/activitystreams#Public" ], "cc": [ "https://social.uibk.ac.at/users/uniinnsbruck/followers", "https://mstdn.science/users/fwf", "https://social.anoxinon.de/users/SNF_ch", "https://respublicae.eu/users/ERC_Research" ], "sensitive": false, "atomUri": "https://social.uibk.ac.at/users/uniinnsbruck/statuses/111934744466713545", "inReplyToAtomUri": null, "conversation": "tag:social.uibk.ac.at,2024-02-15:objectId=555477:objectType=Conversation", "content": "<p>Die alltägliche Erfahrung lehrt uns, dass Verdichtung erwärmt und Expansion abkühlt. Jeder, der schon einmal einen Fahrradreifen aufgepumpt hat, weiß das. </p><p>In der Quantenwelt kann das genau umgekehrt sein. Das haben Physiker um Hanns-Christoph Nägerl in Kooperation mit Kollegen an der Uni Genf festgestellt. Grundlage war eine neue Methode zur Messung der Temperatur von niedrigdimensionalen Quantengasen.</p><p>➡️ <a href=\"https://www.uibk.ac.at/de/newsroom/2024/komprimieren-kann-kuhlen/\" target=\"_blank\" rel=\"nofollow noopener noreferrer\" translate=\"no\"><span class=\"invisible\">https://www.</span><span class=\"ellipsis\">uibk.ac.at/de/newsroom/2024/ko</span><span class=\"invisible\">mprimieren-kann-kuhlen/</span></a></p><p><a href=\"https://social.uibk.ac.at/tags/quantenphysik\" class=\"mention hashtag\" rel=\"tag\">#<span>quantenphysik</span></a> <a href=\"https://social.uibk.ac.at/tags/forschung\" class=\"mention hashtag\" rel=\"tag\">#<span>forschung</span></a> <span class=\"h-card\" translate=\"no\"><a href=\"https://mstdn.science/@fwf\" class=\"u-url mention\">@<span>fwf</span></a></span> <span class=\"h-card\" translate=\"no\"><a href=\"https://social.anoxinon.de/@SNF_ch\" class=\"u-url mention\">@<span>SNF_ch</span></a></span> <span class=\"h-card\" translate=\"no\"><a href=\"https://respublicae.eu/@ERC_Research\" class=\"u-url mention\">@<span>ERC_Research</span></a></span></p>", "contentMap": { "de": "<p>Die alltägliche Erfahrung lehrt uns, dass Verdichtung erwärmt und Expansion abkühlt. Jeder, der schon einmal einen Fahrradreifen aufgepumpt hat, weiß das. </p><p>In der Quantenwelt kann das genau umgekehrt sein. Das haben Physiker um Hanns-Christoph Nägerl in Kooperation mit Kollegen an der Uni Genf festgestellt. Grundlage war eine neue Methode zur Messung der Temperatur von niedrigdimensionalen Quantengasen.</p><p>➡️ <a href=\"https://www.uibk.ac.at/de/newsroom/2024/komprimieren-kann-kuhlen/\" target=\"_blank\" rel=\"nofollow noopener noreferrer\" translate=\"no\"><span class=\"invisible\">https://www.</span><span class=\"ellipsis\">uibk.ac.at/de/newsroom/2024/ko</span><span class=\"invisible\">mprimieren-kann-kuhlen/</span></a></p><p><a href=\"https://social.uibk.ac.at/tags/quantenphysik\" class=\"mention hashtag\" rel=\"tag\">#<span>quantenphysik</span></a> <a href=\"https://social.uibk.ac.at/tags/forschung\" class=\"mention hashtag\" rel=\"tag\">#<span>forschung</span></a> <span class=\"h-card\" translate=\"no\"><a href=\"https://mstdn.science/@fwf\" class=\"u-url mention\">@<span>fwf</span></a></span> <span class=\"h-card\" translate=\"no\"><a href=\"https://social.anoxinon.de/@SNF_ch\" class=\"u-url mention\">@<span>SNF_ch</span></a></span> <span class=\"h-card\" translate=\"no\"><a href=\"https://respublicae.eu/@ERC_Research\" class=\"u-url mention\">@<span>ERC_Research</span></a></span></p>" }, "attachment": [ { "type": "Document", "mediaType": "image/jpeg", "url": "https://social.uibk.ac.at/system/media_attachments/files/111/934/717/014/768/511/original/a64aac1968300343.jpeg", "name": "Blaue Kugeln, Ellipsen und Röhren vor schwarzem Hintergrund. ", "blurhash": "U84-rONDNBxdxNWTj=ohNAj;ohjeW#WRWBoO", "focalPoint": [ 0, 0 ], "width": 2703, "height": 3068 } ], "tag": [ { "type": "Mention", "href": "https://mstdn.science/users/fwf", "name": "@fwf@mstdn.science" }, { "type": "Mention", "href": "https://social.anoxinon.de/users/SNF_ch", "name": "@SNF_ch@social.anoxinon.de" }, { "type": "Mention", "href": "https://respublicae.eu/users/ERC_Research", "name": "@ERC_Research@respublicae.eu" }, { "type": "Hashtag", "href": "https://social.uibk.ac.at/tags/quantenphysik", "name": "#quantenphysik" }, { "type": "Hashtag", "href": "https://social.uibk.ac.at/tags/forschung", "name": "#forschung" } ], "replies": { "id": "https://social.uibk.ac.at/users/uniinnsbruck/statuses/111934744466713545/replies", "type": "Collection", "first": { "type": "CollectionPage", "next": "https://social.uibk.ac.at/users/uniinnsbruck/statuses/111934744466713545/replies?only_other_accounts=true&page=true", "partOf": "https://social.uibk.ac.at/users/uniinnsbruck/statuses/111934744466713545/replies", "items": [] } }, "likes": { "id": "https://social.uibk.ac.at/users/uniinnsbruck/statuses/111934744466713545/likes", "type": "Collection", "totalItems": 7 }, "shares": { "id": "https://social.uibk.ac.at/users/uniinnsbruck/statuses/111934744466713545/shares", "type": "Collection", "totalItems": 4 } }