tag:blogger.com,1999:blog-7307840825023135484.post8725542922716401794..comments2023-04-16T03:44:23.949+12:00Comments on Arcadian Pseudofunctor: Neutrino Boom IIKeahttp://www.blogger.com/profile/05652514294703722285noreply@blogger.comBlogger4125tag:blogger.com,1999:blog-7307840825023135484.post-41502954602177682822010-07-01T21:28:25.546+12:002010-07-01T21:28:25.546+12:00Dear Kea,
what is doubled in p-adic framework is...Dear Kea, <br /><br />what is doubled in p-adic framework is $m^2$ scale and thus $\Delta m^2$ scale. From the figure and other similar figtures one indeed sees how $\theta$ very near to $\pi/4$ is consistent with all measurements of neutrino oscillations if one allows mass scale to vary. May be this is consistent with similar scaling for m in Koide formula. <br /><br />In TGD model for CKM matrix in terms of topological mixing matrices U and D for U and type quarks (sphere, torus, and sphere with two handles characterizing the topology of partonic 2-surface associated with quark) the sum of mass squared for non-mixed quarks is integer if one uses p-adic mass squared scale as unit (and different for different quarks). This integer is not changed in mixing. The additional assumption is that the mixing maximizes entropy defined in terms of mixing probabilities subject to the constraint that the mass square values are integers and their sum is fixed: this says that mixing is as large as possible. This picture applies also to leptonic mixing.Matti Pitkänenhttp://tgd.wippiespace.com/public_html/noreply@blogger.comtag:blogger.com,1999:blog-7307840825023135484.post-90895086471478462692010-07-01T19:25:45.231+12:002010-07-01T19:25:45.231+12:00Zero energy ontology and different p-adic spacetim...Zero energy ontology and different p-adic spacetime sheets? But how can time influence on matter? No, on antimatter? And why 4 %? The back of the Big Book is 4% thick = interference?<br /><br />Gravitation was mentioned, some bending of the spacetime sheets? And dark matter.<br /><br />Living matter is the clue? Left-and righthanded molecules depend on this (negentropy)?<br /><br />This was interesting, but I am no expert.Ullahttps://www.blogger.com/profile/16634036177244152897noreply@blogger.comtag:blogger.com,1999:blog-7307840825023135484.post-70638904938441566222010-07-01T15:16:14.535+12:002010-07-01T15:16:14.535+12:00$\sqrt{m_{*}} = 2 \sqrt{\overline{m}_{2}}$
also ...$\sqrt{m_{*}} = 2 \sqrt{\overline{m}_{2}}$ <br /><br />also works all right. At least this would keep the problem in the antineutrino sector. Matti, this would amount to doubling Koide eigenvalues.Keahttps://www.blogger.com/profile/05652514294703722285noreply@blogger.comtag:blogger.com,1999:blog-7307840825023135484.post-69505358955160225002010-07-01T15:12:40.532+12:002010-07-01T15:12:40.532+12:00Note that although the required mass (in eV) is to...Note that although the required mass (in eV) is too large to be obtained as a combination of $\nu$/$\overline{\nu}$ states, it is obtainable from sums of square roots. For example, letting $m_{*}$ be the required mass,<br /><br />$\sqrt{m_{*}} = \sqrt{m_{3}} + \sqrt{\overline{m}_{2}} + \sqrt{\overline{m}_{3}}$Keahttps://www.blogger.com/profile/05652514294703722285noreply@blogger.com