@[email protected] to World [email protected] • 1 year agoPossible Meissner effect near room temperature in copper-substituted lead apatitearxiv.orgmessage-square21fedilinkarrow-up162arrow-down13cross-posted to: [email protected]
arrow-up159arrow-down1external-linkPossible Meissner effect near room temperature in copper-substituted lead apatitearxiv.org@[email protected] to World [email protected] • 1 year agomessage-square21fedilinkcross-posted to: [email protected]
minus-square@[email protected]OPlinkfedilink7•1 year agoA potential “room-temperature” semiconductor?
minus-squarejorgelinkfedilinkEnglish5•1 year agoThere are many room-temperature semiconductors, for example silicon. Meissner effect is related to superconductors
minus-squarembfalzarlinkfedilink3•1 year agoPretty much all my semiconductors operate well above room temperature! (relatively)
minus-squareFaceDeerlinkfedilink2•1 year agoOh no, a potential revolution in technology, again. How tedious.
minus-squareblargererlinkfedilink9•1 year agocopper substituted lead apatite is literally what lk-99 was. Obviously the exact number and process could be different but colour me extremely skeptical after how that played out.
minus-squareZorquelinkfedilink1•1 year agoCall me when it gets past being a headline in some tech journal.
A potential “room-temperature” semiconductor?
There are many room-temperature semiconductors, for example silicon.
Meissner effect is related to superconductors
Pretty much all my semiconductors operate well above room temperature! (relatively)
Not another one :p
Oh no, a potential revolution in technology, again. How tedious.
copper substituted lead apatite is literally what lk-99 was. Obviously the exact number and process could be different but colour me extremely skeptical after how that played out.
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Call me when it gets past being a headline in some tech journal.