# "*": "https://raw.githubusercontent.com/wefindx/schema/master/method/oo-item.yaml" # "base:title": "0oo - Extraterrestrial Nanolaser Transceivers" "og:title": "Extraterrestrial Nanolaser Transceivers" "og:description": "Today, nanolasers are small, like 35nm each (see link). As a receiver, put a photo-sensor of the same size. Attach a battery and counterweight with a tiny computer to adjust directions. Envelope in omnidirectional photosensor matrix. Test. Mass produce. Create a linear magnetic accelerator in space. Release. Use as a communication channel for any miro-sized probe travelling in parallel. Enjoy hi-res pictures of planets nearby another star. **Related link**: [World’s Smallest Semiconductor Laser Created by University of Texas Scientists](http://www.utexas.edu/news/2012/07/26/smallest-semiconductor-laser-created-ut-scientists/) This idea should be under a goal of reaching other star systems, under space travel category." "og:image": "https://avatars0.githubusercontent.com/u/28134655" "og:url": "/method/685/" "base:css": "/static/css/bootstrap.min.9c25540d6272.css" "base:extra-css": "/static/css/base.57997aeac1df.css" "base:favicon": "/static/favicon.acaa334f0136.ico" "base:body_class": "" "layout:logo": "/static/0oo.8d2a8bbef612.svg" "layout:index": "/" "layout:menu": "/menu/" "layout:categories": "/intents/" "layout:ideas": "/methods/" "layout:projects": "/projects/" "layout:users": "/users/" "layout:about": "/about/" "layout:help": "/help/" "layout:bug_report": "https://github.com/wefindx/0oo" "layout:login": "/accounts/login/" "layout:light-off": "/darken/?darken=true" "layout:set-multilingual": "/mulang/?mulang=true" "layout:lang": "Kalba" "layout:set-language-post-action": "/i18n/setlang/" "layout:csrf-token": "0ZVkkpfn9CPlVPH2csqhnmzL7hZDdmZ8x8mwdpQ9DL1Lk38IykHiDDY4woONogto" "layout:input-next": "/method/685/" "layout:languages": [{"code": "ja", "is-active": "false", "name": "日本語"}, {"code": "lt", "is-active": "true", "name": "Lietuviškai"}, {"code": "zh-hans", "is-active": "false", "name": "简体中文"}, {"code": "en", "is-active": "false", "name": "English"}, {"code": "ru", "is-active": "false", "name": "Русский"}, {"code": "oo", "is-active": "false", "name": "O;o,"}] # "item:parent:intents": [{"url": "/intent/715/", "title": "Achieving Interstellar Flight"}] "item:title": ".:en:Extraterrestrial Nanolaser Transceivers.:cn:粒子望远镜" "item:summary": ".:en:Fire self-aligning nano-lasers at near the speed of light to create a 'fiber optic' channel reaching to nearby another star..:cn:" "item:voting": +2 "item:voting:add": "/admin/hlog/voting/add/?method=685" "item:voting:csrf_token": "0ZVkkpfn9CPlVPH2csqhnmzL7hZDdmZ8x8mwdpQ9DL1Lk38IykHiDDY4woONogto" "item:voting:submit-value-option": {"selected": "[-]", "value": "-"} "item:base-administration": false "item:body": | .:en Today, nanolasers are small, like 35nm each (see link). As a receiver, put a photo-sensor of the same size. Attach a battery and counterweight with a tiny computer to adjust directions. Envelope in omnidirectional photosensor matrix. Test. Mass produce. Create a linear magnetic accelerator in space. Release. Use as a communication channel for any miro-sized probe travelling in parallel. Enjoy hi-res pictures of planets nearby another star. **Related link**: [World’s Smallest Semiconductor Laser Created by University of Texas Scientists](http://www.utexas.edu/news/2012/07/26/smallest-semiconductor-laser-created-ut-scientists/) This idea should be under a goal of reaching other star systems, under space travel category. .:cn 虽然我们不能轻松地将探针发送到其他恒星系统,但我们可以通过构建类似于**空间中的光纤电缆**,从其附近的光子中提取信息。方法是用粒子加速器向空间中发射能够自动对准的纳米收发器链。 纳米收发器可以具有特定的设计,以便它们拾取附近的光子,或与这些光子相互作用,强化纳米粒子链,并将它们向下游传送到地球(或观察点)。 可以使用微电子技术大规模地构建该装置的原型,并使用现有的纳米激光器尝试缩小它。 "item:source-date": "" "item:permalink": "/method/685/?l=lt" "item:owner": "Mindey" "item:created": "2018-04-16T04:42:38.896000" "item:ownerlink": "/user/147/Mindey" # "item:link:add": "/admin/hlog/link/add/?parent=685" "item:link:items": "item:project:items": # "item:comment:items": - "id": "a-633" "mtrans": | Įdomus. Ar šie siųstuvai gali būti pritaikyti labai pigiems ryšiams žemėje? Maži lazeriai yra pigūs. {0.5} Manau, kad nano-siųstuvai-imtuvai taip pat gali turėti specifinį dizainą, kad informaciją būtų galima perduoti, pvz., Naudojant šviesos poliarizaciją, kad skaičiavimas galėtų būti atliekamas SENT viduje, tarsi jie būtų viena Turingo mašina. "text": | Interesting. Could these transceivers be also applied for very cheap communications on earth? Small lasers are cheap. {0.5} I think, the nano-transceivers could also have a specific design, so that the information could be transferred, e.g., via light polarization, so that the computing could be performed within SENTs as if they were a single Turing-machine. "owner": "Mindey" "ownerlink": "/user/147/Mindey" "permalink": "/method/685/?l=lt#a-633" "created": "2018-04-16T04:45:49.814000" "base:js": "/static/js/base.c7357c06cc89.js"