BEGIN:VCALENDAR VERSION:2.0 PRODID:researchseminars.org CALSCALE:GREGORIAN X-WR-CALNAME:researchseminars.org BEGIN:VEVENT SUMMARY:Wayne Lewis (University of Hawai`i\, Honolulu Community College) DTSTART:20251219T160000Z DTEND:20251219T173000Z DTSTAMP:20260422T212558Z UID:APRC/7 DESCRIPTION:Title: Inf initude of Sophie Germain Primes\nby Wayne Lewis (University of Hawai` i\, Honolulu Community College) as part of Ultraproducts in Number Theory\ n\nLecture held in Haiku.\n\nAbstract\nWe describe the details of an ultra product proof that there are infinitely many Sophie Germain primes (i.e.\, infinitely many primes $p$ such that $(p-1)/2$ is also prime):\n\nComplem ents of the prime sets associated to cyclotomic polynomials have the finit e intersection property (by CRT and Dirichlet)\, hence extend to a nonprin cipal ultrafilter $\\mathcal{U}$ containing all these complements.\nThis y ields a characteristic $0$ Henselian valued field $\\widetilde{\\mathbb{Q} }=\\prod_{\\mathcal{U}}\\mathbb{Q}_p$ with valuation domain\n$$\n\\widetil de{\\mathbb{Z}}=\\prod_{\\mathcal{U}}\\mathbb{Z}_p=\\mathbb{F}\\oplus \\ti lde s\\\,\\widetilde{\\mathbb{Z}}\,\n\\qquad\n\\tilde s=(2\,3\,5\,7\,11\,\ \dots)/\\mathcal{U}\,\n$$\nfor a maximal discrete subfield $\\mathbb{F}$.\ nSet\n$$\n\\mathbb{L}=\\mathrm{Abs}(\\widetilde{\\mathbb{Q}})=\\bigcap\\{K :K\\text{ is a maximal discrete subfield of }\\widetilde{\\mathbb{Q}}\\}.\ n$$\nThen $\\mathrm{tor}(\\mathbb{L}^\\times)=\\{\\pm 1\\}$: one shows $\\ tilde n\\mid(\\tilde s-\\tilde 1)$ if and only if the cyclotomic polynomia l $\\Phi_n$ has a zero in $\\widetilde{\\mathbb{Q}}$\, and by construction of $\\mathcal{U}$ no $\\Phi_n$ with $n>2$ has a zero.\n\nLet $\\widetilde {\\mathbb{B}}\\cong \\mathbb{Z}^{\\mathbb{P}}/\\mathcal{U}$ be the associa ted Bézout domain with additive group order-isomorphic to the value group of $\\widetilde{\\mathbb{Q}}$\, and set $\\tilde v=(\\tilde s-\\tilde 1)/ \\tilde 2\\in \\widetilde{\\mathbb{B}}$.\nIf $\\tilde 1<\\tilde b\,\\tilde c<\\tilde v$ with $\\tilde b\\tilde c=\\tilde v$ in $\\widetilde{\\mathbb {B}}$\, then for the Kaplansky character $\\eta$ one has\n$$\n-\\tilde 1=\ \eta(\\tilde v)=\\eta(\\tilde b\\tilde c)=\\eta(\\tilde b)^{\\tilde c}.\n$ $\nThe internal product decomposition $\\widetilde{\\mathbb{Z}}^\\times=\\ widetilde{\\mu}\\\,(\\tilde 1+\\tilde s\\\,\\widetilde{\\mathbb{Z}})$ forc es $\\eta(\\tilde b)\\in\\widetilde{\\mu}$\, so $\\widetilde{\\mu}\\cap \\ mathrm{tor}(\\mathbb{L}^\\times)=\\{\\pm 1\\}$ gives $\\eta(\\tilde b)=-\\ tilde 1$ with $\\tilde b<\\tilde v$.\nThis contradicts $[\\tilde 0\,\\tild e s-\\tilde 1)_{\\widetilde{\\mathbb{B}}}$ is a transversal for $\\widetil de{\\mathbb{B}}/(\\tilde s-\\tilde 1)\\widetilde{\\mathbb{B}}\\cong\\mathb b{F}^\\times$ via $\\eta$.\nHence\, $\\tilde v$ is irreducible in $\\widet ilde{\\mathbb{B}}$ and so prime.\n\nFinally\, "is a field" is first-order in the language of rings and\n$$\n\\widetilde{\\mathbb{B}}/\\tilde v\\\,\\ widetilde{\\mathbb{B}}\\cong \\prod_{\\mathcal{U}}\\mathbb{Z}/v_p\\mathbb{ Z}.\n$$\nBy Łoś's theorem\,\n$$\n\\{p\\in\\mathbb{P}\\colon\\mathbb{Z}/v _p\\mathbb{Z}\\text{ is a field}\\}\\in\\mathcal{U}\,\n$$\nso $\\{p\\in\\m athbb{P}: v_p=(p-1)/2\\text{ is prime}\\}\\in\\mathcal{U}$.\nIn particular \, infinitely many Sophie Germain primes exist.\n LOCATION:https://researchseminars.org/talk/APRC/7/ END:VEVENT BEGIN:VEVENT SUMMARY:Wayne Lewis (University of Hawai`i\, Honolulu Community College) DTSTART:20260124T160000Z DTEND:20260124T173000Z DTSTAMP:20260422T212558Z UID:APRC/8 DESCRIPTION:Title: No Spectral Leakage: The Core Mechanism of Quant APRC.\nby Wayne Lewis (U niversity of Hawai`i\, Honolulu Community College) as part of Ultraproduct s in Number Theory\n\nLecture held in Haiku.\n\nAbstract\nOur guiding prin ciple is $\\textit{no spectral leakage into the Chebotarev tail}$.\nFinite Chebotarev cylinder data already determine the global state—there is no hidden mass at infinity.\nIn this lecture I state the compatibility input (Lemma 7.10) and give a detailed proof of the hinge step (Prop. 7.11): a projective family of Chebotarev cylinder marginals extends to a unique nor mal state\, hence $\\omega_\\delta(f_m)=\\lim_{R\\to\\infty}\\omega_\\delt a(f_{m\,R})$ for $f_{m\,R}\\downarrow f_m$.\n LOCATION:https://researchseminars.org/talk/APRC/8/ END:VEVENT END:VCALENDAR