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Reference request: ray class group as quotient of finite ideles

Let $K$ be a number field, and write $\mathbb{A}_{K,f}^\times$ for the group of finite ideles of $K$. That is $$ \mathbb{A}_{K,f}^\times = \{(u_v)_v \in \prod_{v \nmid \infty} K_v^\times : v(u_v) = 0 \...
Sebastian Monnet's user avatar
0 votes
0 answers
112 views

An interesting unramified extension of imaginary quadratic fields

Let $K/\mathbb{Q}$ be an imaginary quadratic extension of discriminant $-D_K < -3$ and fix a prime $p > 3$ that is split in $K$ as $p\mathcal{O}_K = \mathfrak{p}\overline{\mathfrak{p}}$. ...
Tam Nguyen's user avatar
0 votes
1 answer
112 views

Ray class field and its conductor

Let $\mathfrak{m}$ be an ideal of the ring of integers of a number field $K$ and $S$ is a subset of the real places, then the ray class group of $\mathfrak{m}$ and $S$ is the quotient group $$I^{\...
HGF's user avatar
  • 287
3 votes
3 answers
388 views

On subfields of the cyclotomic field $\mathbb{Q}(\zeta_p)$

Let $p$ be an odd prime. Let $\zeta_p=e^{2\pi{\bf i}/p}$ and let $1\le k\le p-1$ be a divisor of $p-1$. Recently, when I learnt algebraic number theory, I met the following problem. If we let $$U_k=\{...
Beginner's user avatar
2 votes
1 answer
175 views

Relation between the genus number and the ambiguous class number

It is well known that for $K/F$ a finite "cyclic" extension of number fields, we have $g_{K/F}=a_{K/F}$, where $g_{K/F}$ denotes the relative genus number, and $a_{K/F}$ denotes the ...
A. Maarefparvar's user avatar
2 votes
1 answer
252 views

Ring structure on Brauer group

Class field theory defines an isomorphism between the Brauer group of a finite extension of p-adic fields and a cyclic group with a canonical generator. This in turn defines an isomorphism of the ...
NZK's user avatar
  • 447
2 votes
1 answer
128 views

Conductor of the Hecke character- power residue symbol

The power residue symbol is the multiplicative character $\bigl(\frac a \cdot\bigr): \mathcal I_\mathfrak m\to \mu_n$ that satistfies $\bigl(\frac a {\mathfrak p}\bigr)\equiv a^{\frac{N\mathfrak p-1}{...
roasted_cashews's user avatar
2 votes
0 answers
116 views

Restriction of the local Artin map on the valuation ring of a local field

Let $F$ be a local field, in particular a finite extension of $\mathbb{Q}_p$ for some prime $p$ and let $Art_{L}: L^\times \to Gal(F^{ab}/F)$ be its local Artin map. We know that if $L/F$ is a finite ...
Mario's user avatar
  • 367
3 votes
1 answer
402 views

Is there a non-perfect field in which polynomials of large degree are reducible?

It is well-known that, in a real-closed field $K$, every polynomial of degree $>2$ is reducible in $K$. But in this case the characteristic of $K$ is zero. My question is: there exists a non-...
Medo's user avatar
  • 41
1 vote
1 answer
163 views

Is there any relationship between the study of class number of a number field with the study of class field theory through Lubin-Tate formal group?

I am curious to know if we can somehow relate to the study of local class field theory through Lubin-Tate formal group with the study of class number of a field (global field in general) in class ...
MAS's user avatar
  • 930
2 votes
1 answer
88 views

Cyclic extensions of a number field of full local degree in a given set $S$

Let $K$ be a number field, and let $S=S_f\cup S_{\mathbb R}\cup S_{\mathbb C}$ be a finite set of places of $K$, where $S_f$ denotes the set of finite places in $S$, $S_{\mathbb R}$ denotes the set of ...
Mikhail Borovoi's user avatar
2 votes
0 answers
65 views

Constructing a cyclic extension $L$ with given local behavior of a global field $K$ such that $L$ is normal over a subfield $F$ of $K$

Let $F$ be a global field without real places (that is, a function field or a totally imaginary number field). Let $K/F$ be a cyclic extension of degree $n$. Let $S$ be a ${\rm Gal}(K/F)$-invariant ...
Mikhail Borovoi's user avatar
1 vote
0 answers
58 views

Normality in a tower of cyclic extensions of global fields, as in Artin-Tate

Let $L_0$ be a global field without real places, that is, a global function field or a totally imaginary number field, and let $V_f(L_0)$ denote the set of finite (that is, non-archimedean) places of $...
Mikhail Borovoi's user avatar
1 vote
1 answer
140 views

Defect between modulus and conductor of ray class field

I have following question about a remark in J. Neukirch's Algebraic Number Theory around page 397. The context: We consider ideal theoretic formulation of global class field theory of a number field $...
user267839's user avatar
  • 5,966
4 votes
1 answer
190 views

Class numbers in the unramified biquadratic extensions of number fields

Let $K/k$ be an unramified biquadratic extension of number fields (i.e., $\operatorname{Gal}(K/k)\simeq V_4$), and $k_1$, $k_2$ and $k_3$ its three intermediate fields. I know, in general, we can ...
ayoub-chess's user avatar
4 votes
1 answer
224 views

Generators of the ideal class group

Theorem 4 of Eric Bach's "Explicit bounds for primality testing and related problems" states the following: Let $K$ be a number field of degree greater than 1. Let $d$ be the absolute value ...
Rashad Ek's user avatar
4 votes
1 answer
367 views

Conductor and local Kronecker–Weber theorem

Given an abelian extension $K$ of $\mathbb{Q}$, the global Kronecker–Weber theorem tells us that there exist a positive integer $N$ and a primitive $N$-th root of unity $\zeta_N$ such that $K\subseteq ...
Yijun Yuan's user avatar
4 votes
1 answer
246 views

How do "Kummer closures" of fields look?

Let $F$ be a field and $A$ a finite abelian group. You can ask: does the regular representation $F[A]$ of $A$ split as a direct sum of 1-dimensional representations? This is equivalent to the ...
Theo Johnson-Freyd's user avatar
4 votes
0 answers
147 views

A normal extension of a number field of given degree that does not split over a given set of finite places

Let $K$ be a number field and $S$ be a finite set of non-archimedean places of $K$. Let $n>1$ be a natural number. Question. Does there exist a normal extension $L/K$ of degree $n$ such that $L\...
Mikhail Borovoi's user avatar
7 votes
0 answers
157 views

Non-abelian ray class fields for local fields

Let $K$ be a non-Archimedean local field. Then, thanks to work of Koch (when $K$ has positive characteristic) and Jannsen-Wingberg (when $K$ has characteristic zero, and odd residual characteristic) ...
Riccardo Pengo's user avatar
2 votes
2 answers
433 views

Expositions of the classical approach to local class field theory (Brauer group and Hasse invariant)

I've posted this question already on MSE and didn't get much out of it, so I hope it's OK to repost here. I'm an undergraduate trying to learn local class field theory from the corresponding chapter ...
St. Barth's user avatar
  • 121
6 votes
0 answers
513 views

Extensions of p-adic number fields

Let $p$ be a prime number and $\mathbb{Q}_p$ be the $p-$adic rational field. Let $E/\mathbb{Q}_p$ be a fixed finite extension. On this site, I define a finite extension $F/E$ to be "good" if ...
Eric's user avatar
  • 71
2 votes
0 answers
250 views

Maximal p-extension and pro-p extension

I’m studying Iwasawa theory and I meet some questions Thanks a lot for your help. Q_1: About terminology $p$-extension. I find many reference use maximal $p$-extension or maximal abelian p-extension ...
Rellw's user avatar
  • 319
5 votes
2 answers
550 views

Compare with Weber and Hilbert class field

Heinrich Martin Weber and David Hilbert created their own class fields in 1891 and 1897 respectively. In the past, Weber continued to name $K={Q}(\sqrt{-m}, j(\omega))$, the Kronecker class field of $...
pokssin's user avatar
  • 119
1 vote
0 answers
52 views

Are integration over restricted direct products only useful for specific functions?

So I've been reading Tate's thesis currently. In that we have defined integration of functions on $G$, which are basically formed from restricted direct products of locally compact groups $G_{\...
Rits's user avatar
  • 133
2 votes
0 answers
280 views

Why do we consider characters to $\mathbb{C}$ and not $\mathfrak{p}$-adic or $\mathbb{R}$?

Context: I've been reading Tate's thesis, and in it, we defined the character group for $k^{*}$ and $k^{+}$ for a local field $k$. Here we take the range of the characters to be $S_{1}$ for $k^{+}$ ...
Rits's user avatar
  • 133
10 votes
2 answers
2k views

Why are we defining character groups differently for additive and multiplicative group in Tate's thesis?

Context: I've just started reading Tate's thesis. In it, we start with a local field $k.$ The aim of the section is to describe the structure of the character groups of $k^+$ (the additive group) and $...
Rits's user avatar
  • 133
2 votes
1 answer
285 views

Number of imaginary quadratic field with its ideal class group has $\Bbb{Z}/2\Bbb{Z}$ as 2 part

Let $K=\Bbb{Q}(\sqrt{D})$($D$ is a square free negative integer) be a quadratic number field. Class number (order of ideal class group $Cl_K$ of $K$) is $1$ if only if $D=-2,-3,-7,-11,-19,-43,-67,-163$...
Duality's user avatar
  • 1,541
4 votes
1 answer
329 views

Fields in which $ -1 $ can't be written as sum of two square elements

We say a field $F$ has the property $*$ if the equation $x^2 + y^2=-1$ has no solution in $F$. For an example if $F$ is a subfield of real numbers then $F$ satisfies $*$. On the other hand if $ F $ is ...
Sky's user avatar
  • 923
4 votes
0 answers
181 views

The order of the global Galois group

For any profinite group $G$, we can define the order of $G$ using the notion of supernatural number. Now let $K$ be a number field, $S$ a finite set of primes of $K$ and $ G_{K,S} $ the Galois group ...
Nobody's user avatar
  • 863
2 votes
0 answers
93 views

Compositum of field extensions in context of $\mathbb Z_p$ extension

I had asked this question on stackexchange and I think it is better suited for this site. Suppose I have a $\Gamma \simeq \mathbb Z_p $ extension $F_\infty /F$ of a number field $F$. Let $F_n$ be the ...
mathemather's user avatar
1 vote
0 answers
100 views

Examples of $\mathbb{Z}_p$-extensions and two $\mathbb{Z}_p$-extensions with a "nontrivial" intersection

Let $k$ be a number field (a finite extension of $\mathbb{Q}$). Let $p$ be a prime. By saying "$\mathbb{Z}_p$-extensions", we mean Galois extensions $K/k$ of Galois group isomorphic to $\...
Hetong Xu's user avatar
  • 639
5 votes
0 answers
176 views

Epstein zeta function for non-fundamental discriminant to L-series

Let $Q(x,y) = ax^2+b xy + cy^2$ be a primitive integral positive-definite quadratic form, with associated number field $K$. If $D=b^2-4ac$ is a fundamental discriminant, then it's well-known that $$\...
pisco's user avatar
  • 528
1 vote
0 answers
210 views

What is a definition of $A(P_v)$ in the definition of Brauer-Manin obstruction?

This is a question related to the definition of Brauer-Manin obstruction. Let $K$ be a number field. $X/K$ be an algebraic variety over $K$. Let $O_{X,P}$ be a local ring of $X$ at $P$. Let $Br(X)=\...
Duality's user avatar
  • 1,541
4 votes
0 answers
170 views

Does $p$-adic Baker theorem holds in the given case?

Let $p$ be a prime number, $\mathbb{Q}_p$ the field of $p$-adic numbers, and $\mathbb{C}_p$ the completion of the algebraic closure of $\mathbb{Q}_p$. Let $U_p$ be the units $(1+\mathfrak{m})$ of $\...
MAS's user avatar
  • 930
6 votes
1 answer
427 views

Surjectivity of the norm of units in Galois extensions ramified exactly at one finite prime

Let $L/K$ be a finite Galois extension of number fields that is ramified exactly at one finite prime and is unramified at all infinite primes. Let $U_K$ and $U_L$ denote the units of the ring of ...
Ehsan Shahoseini's user avatar
0 votes
0 answers
200 views

What is the conductor of $K(\sqrt{2})$ over $K$?

Let $ K=\Bbb Q\left(\sqrt{(-1)^\frac{N+1}{2}N}\right)$. I want to find the ray class field of $K$ containing $\sqrt{2}$. I considered $L=\Bbb Q(\sqrt{2})$. By Artin reciprocity, there exist modulus $\...
SUNIL PASUPULATI's user avatar
18 votes
4 answers
2k views

What's the use of group cohomology for class field theory?

I'm a graduate student studying now for the first time class field theory. It seems that how to teach class field theory is a problem over which many have already written on MathOverflow. For example ...
Daniel Miller's user avatar
5 votes
1 answer
485 views

Class numbers of cyclotomic fields and their maximal totally real subfields

Let $\zeta_p$ be a $p$-th root of unity for a prime $p$, let $L:=\mathbb{Q}(\zeta_p)$ and $K$ the maximal totally real subfield of $L$, i.e. $K:=\mathbb{Q}(\zeta_p+\zeta_p^{-1})$. I am trying to prove ...
did's user avatar
  • 637
3 votes
0 answers
162 views

relating class number and narrow class number of a real field

I am interested in finding out when the narrow class number of $\mathbb{Q}(\zeta_p+\zeta_p^{-1})$ is the same as the class number of $\mathbb{Q}(\zeta_p+\zeta_p^{-1})$ where $\zeta_p$ is a primitive $...
did's user avatar
  • 637
8 votes
2 answers
479 views

Image of the norm map for Artin-Schreier extensions

Let $k$ be a local field of characteristic $p$ and $\omega \in k$ a uniformiser. Consider the Artin-Schreier extension $L_n = k[x]/(x^p - x - \omega^n)$ for each $n \in \mathbb{Z}$. Is there an ...
Daniel Loughran's user avatar
2 votes
0 answers
128 views

Lubin--Tate formal group construction in local class field theory using group cohomology

Let $K$ be a non-archimedean local field of characteristic 0. Fix a uniformiser $\pi$ and an algebraic closure $\bar{K}$. The theory of Lubin--Tate formal groups gives an explicit construction of the ...
User0829's user avatar
  • 1,428
1 vote
0 answers
116 views

CM-fields and ideal theoretic ray class group

Let $K$ be a number field, $\mathcal{O}_K$ its ring of integers and $S$ a finite subset of the real places. Let $\mathfrak{m} \subset \mathcal{O}_K$ an ideal. The ideal theoretic ray class group of $\...
user267839's user avatar
  • 5,966
1 vote
2 answers
169 views

The $ 1 \operatorname{ mod } \mathfrak{m}$ congruence relation in ray $ P^{\mathfrak{m}}$ of the ideal theoretic ray class group

Let $K$ be a number field, $\mathcal{O}_K$ its ring of integers and $S$ a subset of the real places. Let $\mathfrak{m} \subset \mathcal{O}_K$ an ideal. The ideal theoretic ray class group of $\...
user267839's user avatar
  • 5,966
2 votes
1 answer
307 views

A question about unramified quadratic extension of number field

Is there any condition over a number field $K$ for an unramified quadratic extension of $K$ to admit an embedding into an unramified cyclic extension of degree 4 of $K$?
ayoub-chess's user avatar
3 votes
1 answer
176 views

Knot group of a field extension

Notation: $L/K$, finite extension of global fields $K^\times$, unit group of $K$ $L^\times$, units group of $L$ $\mathbb{A}_L^\times$, ideles of $L$ $N_{L/K}$, the norm map The knot group of an ...
Tristan Phillips's user avatar
1 vote
0 answers
114 views

Rayclass group and Hilbert class group, $\mathrm{Gal}(K(\mathfrak{a})/K)\cong(\mathcal{O}_K/\mathfrak{a})^\times$

Let $K$ be an imaginary quadratic field with class number $1$. Let $\mathfrak{a}$ be an ideal of $ \mathcal{O}_K$ and $K(\mathfrak{a})$ denote the ray class field of $K$ modulo $\mathfrak{a}$. Why ...
Duality's user avatar
  • 1,541
-1 votes
1 answer
180 views

Set of all primes $p$ that split in $\mathbb{Q}\left(\sqrt{-k}\right)$

Let $k$ be a squarefree positive integer. We know that a prime $p$ splits in $K=\mathbb{Q}(\sqrt{-k})$ if and only if $-k$ is a quadratic residue mod $p$. My question is: can we explicitly determine ...
user491084's user avatar
4 votes
1 answer
167 views

Existence of lift of (local) Artin map

In a comment to this question, David Loeffler asked if one can show that the (local) Artin map $$K^\times \to G_K^{ab}$$ does not have a lift to $G_K$. Probably this wouldn't be canonical, but I can't ...
curious math guy's user avatar
4 votes
0 answers
164 views

What are the applications of $\lambda$-rings to class field theory?

In the book Lambda Rings by Yau, he mentions several areas where $\lambda$-rings can be applied, but he doesn't go into much details. He even includes class field theory in the list, mentioning "...
Lukas Heger's user avatar

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