[{"data":1,"prerenderedAt":99},["ShallowReactive",2],{"docs-\u002Fdocs\u002Fdev\u002Fbeam-technology\u002Flelantusmw":3,"docs-surround-\u002Fdocs\u002Fdev\u002Fbeam-technology\u002Flelantusmw":88},{"id":4,"title":5,"body":6,"description":79,"extension":80,"image":81,"meta":82,"navTitle":81,"navigation":83,"path":84,"seo":85,"stem":86,"__hash__":87},"docs\u002Fdocs\u002Fdev\u002Fbeam-technology\u002Flelantusmw.md","LelantusMW",{"type":7,"value":8,"toc":75},"minimark",[9,13,25,40,55,69],[10,11,5],"h1",{"id":12},"lelantusmw",[14,15,16,17,24],"p",{},"Cryptographer ",[18,19,23],"a",{"href":20,"rel":21},"https:\u002F\u002Fwww.linkedin.com\u002Fin\u002Faramjivanyan\u002F",[22],"nofollow","Aram Jivanyan"," of Firo (formerly ZCoin) initially developed Lelantus as a new protocol for a confidential exchange of value.",[14,26,27,28,33,34,39],{},"The core principles of Lelantus describe the related proofs placing a UTXO set into a ",[18,29,32],{"href":30,"rel":31},"https:\u002F\u002Fbeamx.gitbook.io\u002Fglossary\u002F-Ma56WMqUB1AsnhoithB\u002F",[22],"shielded pool"," while the ",[18,35,38],{"href":36,"rel":37},"https:\u002F\u002Fwww.google.com\u002Fsearch?q=anonymity+set+crypto&sxsrf=ALeKk03stmb--lt3dzzlAfJEASZzekFidw%3A1625620539632&ei=OwDlYKXhJfW3qtsP4f6o8Aw&oq=anonymity+set+crypto&gs_lcp=Cgdnd3Mtd2l6EAMyBQghEKABMgUIIRCgAToHCCMQsAMQJzoHCAAQRxCwAzoCCAA6BggAEBYQHjoFCCEQqwJKBAhBGABQ2UdY1FdggVpoAXACeACAAcYBiAGFCZIBAzAuOJgBAKABAaoBB2d3cy13aXrIAQnAAQE&sclient=gws-wiz&ved=0ahUKEwjl6ra25M_xAhX1m2oFHWE_Cs4Q4dUDCA8&uact=5",[22],"anonymity set"," accumulates. The UTXO set leaves the shielded pool as a \"new\" UTXO set equally the exact total value as UTXO set initially submitted.",[14,41,42,43,48,49,54],{},"Beam combined Lelantus with Mimblewimble to create a hybrid",[18,44,47],{"href":45,"rel":46},"https:\u002F\u002Fdocs.beam.mw\u002FLelantus-MW.pdf",[22]," LelantusMW protocol",". This hybrid protocol resolves the issue of ",[18,50,53],{"href":51,"rel":52},"https:\u002F\u002Fieeexplore.ieee.org\u002Fdocument\u002F8806723",[22],"linkability",", which in some instances could allow an active attack to establish a link between wallets (though not to determine identities or values of the transactions).",[14,56,57,58,62,63,68],{},"See ",[18,59,5],{"href":60,"rel":61},"https:\u002F\u002Fgithub.com\u002FBeamMW\u002Fbeam\u002Fwiki\u002FLelantus-MW",[22]," and ",[18,64,67],{"href":65,"rel":66},"https:\u002F\u002Fgithub.com\u002FBeamMW\u002Fbeam\u002Fwiki\u002FMW-CLA",[22],"MW Confidential Lelantus Assets"," for a more in-depth description of our protocol.",[14,70,71],{},[18,72,73],{"href":73,"rel":74},"https:\u002F\u002Fwww.youtube.com\u002Fwatch?v=cQGQZ1OWPmc&ab_channel=ZKProofStandards",[22],{"title":76,"searchDepth":77,"depth":77,"links":78},"",2,[],"Cryptographer Aram Jivanyan of Firo (formerly ZCoin) initially developed Lelantus as a new protocol for a confidential exchange of value.","md",null,{},true,"\u002Fdocs\u002Fdev\u002Fbeam-technology\u002Flelantusmw",{"title":5,"description":79},"docs\u002Fdev\u002Fbeam-technology\u002Flelantusmw","zvtRSRbXVwMle-dcn526yZSbooUR8PyHIh6wDBhhQHU",[89,94],{"title":90,"path":91,"stem":92,"description":93,"children":-1},"Laser Beam","\u002Fdocs\u002Fdev\u002Fbeam-technology\u002Flaser-beam","docs\u002Fdev\u002Fbeam-technology\u002Flaser-beam","Beam added relative kernels (e.g., kernels that are only valid if another kernel exists on the blockchain) as a part of our expansion of the Mimblewimble protocol, which birthed the creation of Laser Beam direct payment channels similar to those used in the Lightning Network.",{"title":95,"path":96,"stem":97,"description":98,"children":-1},"Mimblewimble","\u002Fdocs\u002Fdev\u002Fbeam-technology\u002Fmimblewimble","docs\u002Fdev\u002Fbeam-technology\u002Fmimblewimble","Mimblewimble is an innovative confidential cryptocurrency protocol described initially in a whitepaper published in October 2016 by an anonymous author under the pseudonym of Tom Elvis Jedusor.",1783006049699]