Shvarts ro'yxati - Schwarzs list - Wikipedia

Ning matematik nazariyasida maxsus funktsiyalar, Shvartsning ro'yxati yoki Shvarts jadvali tomonidan topilgan 15 ta ishning ro'yxati Hermann Shvarts (1873, p. 323) qachon gipergeometrik funktsiyalar algebraik tarzda ifodalanishi mumkin. Aniqrog'i, bu holatlarni aniqlaydigan parametrlarning ro'yxati gipergeometrik tenglama cheklangan monodromiya guruhi, yoki teng ravishda ikkita mustaqil echimga ega algebraik funktsiyalar. Unda monodromiya guruhining izomorfizm sinfiga bo'lingan 15 ta holat ko'rsatilgan (a holatini hisobga olmaganda tsiklik guruh ) va birinchi bo'lib Shvarts tomonidan murakkab analitik geometriya usullari bilan olingan. Shunga mos ravishda bayonot to'g'ridan-to'g'ri gipergeometrik tenglamani belgilaydigan parametrlar bo'yicha emas, balki ba'zi birlarni tavsiflash uchun ishlatiladigan miqdorlar bo'yicha sferik uchburchaklar.

Murakkab tekislikdagi umumiy ikkinchi darajali differentsial tenglamalar uchun jadvalning qanchalik keng ahamiyati ko'rsatildi Feliks Klayn, natijada bunday tenglamalar uchun cheklangan monodromiya holatlari va natijani kim isbotladi muntazam o'ziga xosliklar o'zgaruvchining o'zgarishiga bog'liq bo'lishi mumkin (ning kompleks analitik xaritalari Riman shar tenglamani gipergeometrik shaklga tushiradigan). Aslida ko'proq narsa haqiqatdir: Shvartsning ro'yxati ixchamlik bo'yicha muntazam o'ziga xosliklarga ega bo'lgan barcha ikkinchi darajali tenglamalar asosida yotadi Riemann sirtlari Riemann sharidagi gipergeometrik tenglamadan kompleks analitik xaritalash yo'li bilan chekinish natijasida cheklangan monodromiyaga ega, tenglama ma'lumotlaridan hisoblanadigan daraja.^[1]^[2]

Raqam	${ displaystyle lambda}$	${ displaystyle mu}$	${ displaystyle nu}$	maydon / ${ displaystyle pi}$	ko'pburchak
1	1/2	1/2	p/n (≤ 1/2)	p/n	Ikki tomonlama
2	1/2	1/3	1/3	1/6	Tetraedral
3	2/3	1/3	1/3	2/6	Tetraedral
4	1/2	1/3	1/4	1/12	Kub / oktaedr
5	2/3	1/4	1/4	2/12	Kub / oktaedr
6	1/2	1/3	1/5	1/30	Icosahedron / Dodecahedron
7	2/5	1/3	1/3	2/30	Icosahedron / Dodecahedron
8	2/3	1/5	1/5	2/30	Icosahedron / Dodecahedron
9	1/2	2/5	1/5	3/30	Icosahedron / Dodecahedron
10	3/5	1/3	1/5	4/30	Icosahedron / Dodecahedron
11	2/5	2/5	2/5	6/30	Icosahedron / Dodecahedron
12	2/3	1/3	1/5	6/30	Icosahedron / Dodecahedron
13	4/5	1/5	1/5	6/30	Icosahedron / Dodecahedron
14	1/2	2/5	1/3	7/30	Icosahedron / Dodecahedron
15	3/5	2/5	1/3	10/30	Icosahedron / Dodecahedron

Raqamlar ${ displaystyle lambda, mu, nu}$ are (almashtirishlar, belgilar o'zgarishi va qo'shilishigacha) ${ displaystyle ( ell, m, n) in mathbb {Z} ^ {3}}$ bilan ${ displaystyle ell + m + n}$ hatto) farqlar ${ displaystyle 1-c, c-a-b, b-a}$ eksponentlarining gipergeometrik differentsial tenglama uchta yagona nuqtada ${ displaystyle 0,1, infty}$ . Ular ratsional sonlar va agar shunday bo'lsa ${ displaystyle a, b}$ va ${ displaystyle c}$ , nazariyaga geometrik yondoshishdan ko'ra, arifmetikada muhim bo'lgan nuqta.

Keyingi ish

Shvarts natijalarini kengaytirgan T. Kimura, u ishlarni ko'rib chiqqan hisobga olish komponenti ning differentsial Galois guruhi gipergeometrik tenglamaning a hal etiladigan guruh.^[3]^[4] Differentsial Galois guruhini bog'laydigan umumiy natija G va monodromiya guruhi Γ buni ta'kidlaydi G bo'ladi Zariski yopilishi ning of - bu teorema Matsuda kitobida keltirilgan Michio Kuga. Galuazaning umumiy differentsial nazariyasi bo'yicha, natijada Kimura-Shvarts jadvali tenglamani algebraik funktsiyalar bo'yicha integrallanish holatlarini va kvadratchalar.

Boshqa tegishli ro'yxat K. Takeuchi, kim (giperbolik) tasniflagani uchburchak guruhlari bu arifmetik guruhlar (85 ta misol).^[5]

Emil Pikard a yordamida Shvartsning murakkab geometriyadagi ishini kengaytirishga intildi umumlashtirilgan gipergeometrik funktsiya, monodromiya a bo'lgan tenglamalar hollarini tuzish alohida guruh ichida loyihaviy unitar guruh PU(1, n). Per Deligne va Jorj Mostov qurish uchun uning g'oyalaridan foydalangan panjaralar loyihaviy unitar guruhda. Ushbu ish klassik holatda Takeuchi ro'yxatining cheklanganligini tiklaydi va ular tuzgan panjaralarning arifmetik guruhlar xarakteristikasi yordamida arifmetik bo'lmagan panjaralarning yangi namunalarini taqdim etdi PU(1, n).^[6]

Baldassari Kleinning universalligini, ning algebraik echimlarini muhokama qilish uchun qo'llagan Lame tenglamasi Shvarts ro'yxati orqali.^[7]

Shvarts ro'yxatidagi kabi algebraik tarzda ifodalanishi mumkin bo'lgan boshqa gipergeometrik funktsiyalar nazariy fizikada paydo bo'ladi. ${ displaystyle T { overline {T}}}$ ikki o'lchovli o'lchov nazariyalarining deformatsiyalari. ^[8]

Shuningdek qarang

Shvarts uchburchagi

Izohlar

^ Zamonaviy davolash F. Baldassarri, B. Dwork, Ikkinchi tartibda algebraik echimlarga ega bo'lgan chiziqli differentsial tenglamalar, Amer. J. Matematik. 101 (1) (1979) 42-76.
^ http://archive.numdam.org/ARCHIVE/GAU/GAU_1986-1987__14_/GAU_1986-1987__14__A12_0/GAU_1986-1987__14__A12_0.pdf, s.5-6.
^ http://fe.math.kobe-u.ac.jp/FE/Free/vol12/fe12-18.pdf
^ http://www.intlpress.com/MAA/p/2001/8_1/MAA-8-1-113-120.pdf p. Formulyatsiya uchun 116.
^ http://projecteuclid.org/DPubS/Repository/1.0/Disseminate?view=body&id=pdf_1&handle=euclid.jmsj/1240433796
^ http://archive.numdam.org/ARCHIVE/PMIHES/PMIHES_1986__63_/PMIHES_1986__63__5_0/PMIHES_1986__63__5_0.pdf
^ F. Baldassarri, Lamening differentsial tenglamasining algebraik echimlari to'g'risida, J. Diferensial tenglamalar 41 (1) (1981) 44-58. Tuzatish Qayta ko'rib chiqilgan Lale tenglamasining algebraik echimlari (PDF), Robert S. Maier tomonidan.
^ Brennan, T. Daniel; Ferko, xristian; Seti, Savdeep (2019). "DBI ning abeliya bo'lmagan analogi ${ displaystyle T { overline {T}}}$ ". arXiv:1912.12389 [hep-th ].

Adabiyotlar

Matsuda, Michihiko (1985), Gipergeometrik differentsial tenglamalarning algebraik echimlari bo'yicha ma'ruzalar (PDF), Matematikadan ma'ruzalar, 15, Tokio: Kinokuniya Company Ltd., JANOB1104881
Shvarts, H. A. (1873), "Ueber diejenigen Fälle in Welchen die Gaussische hypergeometrische Reihe eine algebraische Funktsiya muhim elementlar darstellt", Journal für die reine und angewandte Mathematik, 75: 292–335, ISSN 0075-4102

Tashqi havolalar

Lineer bo'lmagan Shvars ro'yxatiga (PDF)

[1] Zamonaviy davolash F. Baldassarri, B. Dwork, Ikkinchi tartibda algebraik echimlarga ega bo'lgan chiziqli differentsial tenglamalar, Amer. J. Matematik. 101 (1) (1979) 42-76.

[2] ttp://archive.numdam.org/ARCHIVE/GAU/GAU_1986-1987__14_/GAU_1986-1987__14__A12_0/GAU_1986-1987__14__A12_0.pdf, s.5-6.

[3] ttp://fe.math.kobe-u.ac.jp/FE/Free/vol12/fe12-18.pdf

[4] ttp://www.intlpress.com/MAA/p/2001/8_1/MAA-8-1-113-120.pdf p. Formulyatsiya uchun 116.

[5] ttp://projecteuclid.org/DPubS/Repository/1.0/Disseminate?view=body&id=pdf_1&handle=euclid.jmsj/1240433796

[6] ttp://archive.numdam.org/ARCHIVE/PMIHES/PMIHES_1986__63_/PMIHES_1986__63__5_0/PMIHES_1986__63__5_0.pdf

[7] F. Baldassarri, Lamening differentsial tenglamasining algebraik echimlari to'g'risida, J. Diferensial tenglamalar 41 (1) (1981) 44-58. Tuzatish Qayta ko'rib chiqilgan Lale tenglamasining algebraik echimlari (PDF), Robert S. Maier tomonidan.

[8] Brennan, T. Daniel; Ferko, xristian; Seti, Savdeep (2019). "DBI ning abeliya bo'lmagan analogi ${ displaystyle T { overline {T}}}$ ". arXiv:1912.12389 [hep-th ].

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