{
  "$type": "site.standard.document",
  "bskyPostRef": {
    "cid": "bafyreihjlhxjip63aobqthrmylt36ey3coo6wbpb6m7jqfdpewcfduxcja",
    "uri": "at://did:plc:7ltlvigjik37fxbx2bat4p22/app.bsky.feed.post/3mnjsxg4dlhm2"
  },
  "coverImage": {
    "$type": "blob",
    "ref": {
      "$link": "bafkreihwjulvdybnlcryuqsr5vioey5nwj3qhkhxne7ksthikbkcv3tvty"
    },
    "mimeType": "image/jpeg",
    "size": 154465
  },
  "path": "/space-systems/mit-thruster-ascent-cubesat-propulsion/",
  "publishedAt": "2026-06-05T08:57:51.000Z",
  "site": "https://newatlas.com",
  "tags": [
    "Continue Reading",
    "Space Systems",
    "Engineering",
    "MIT",
    "Satellite",
    "CubeSat",
    "NASA",
    "Mars"
  ],
  "textContent": "Engineers at MIT have successfully tested a hybrid propulsion system for small satellites that combines the raw punch of chemical rockets with the long-haul efficiency of electric thrusters – and crucially, both run on the same fuel. This tech could propel cheap, briefcase-sized spacecraft to Mars and beyond.\n\nContinue Reading\n\n**Category:** Space Systems, Engineering\n\n**Tags:** MIT, Satellite, CubeSat, NASA, Mars",
  "title": "Thumbnail-sized thrusters could take CubeSats to Mars"
}