:,,.,,,... D. Kennedy (Science, )

( ) fal@math.ac.cn

:,,.,,,... D. Kennedy (Science, )

,,.

,,. :.

.,, von Neumann.,,., SCI.

,,.

,,.,,.

,,.,,..

,,,,,, (, ).

, ( ), :

, ( ), :

, ( ), :

, ( ), :

, ( ), :

, ( ), :

. L A TEX (WinEdt),.

. L A TEX (WinEdt),.,..

:,. :

:,. :.

:,. :..

:,. :.. ( ).

:,. :.. ( ). (, ).

,,. :

,,. :, To the author s knowledge, there is little information in literature about...

,,. :, To the author s knowledge, there is little information in literature about..., He did not give a complete proof of... However, there is a gap in the proof of...

.. :

[1] name(s) of author(s), title of the paper, (abbreviated) title of the journal (in italics), number of volume (in boldface), year of publication (in parentheses), numbers of the first and last pages. [2] name(s) of author(s), title of the book (in italics), publishing house, city of publication, year of publication. [3] name(s) of author(s), title of the paper, in: title of the book (in italics), publishing house, city of publication, year of publication, numbers of the first and last pages of the paper.

, -. \bibitem{jonh2008a}, \cite{jonh2008a}.

:.,. On the Study of... On the Existence of....

,,,,.,.,.

:.,.,,.

,.., :

In this paper, we will investigate... ( )

In this paper, we will investigate... ( ) In this paper, we showed... ( )

In this paper, we will investigate... ( ) In this paper, we showed... ( ) In this paper, we investigate..., and it is proved that... ( )

In this paper, we will investigate... ( ) In this paper, we showed... ( ) In this paper, we investigate..., and it is proved that... ( ) In this paper, we investigate... In this paper, we show... In this paper, we investigate..., and prove that...

:, (, ),,,,,.

:, (, ),,,,,., 1 Introduction, 2 Preliminaries, 3,,..

,.,.,.

,.,.,.,.

:. ( ).., α is a homomorphism of groups. α The mapping.

( ): Since (Because)..., then (hence, therefore, thus, so) we have...,. The subgroup H is also nilpotent too. also too,..

. We say that a group G is solvable if... ( that ). : assume, suppose that,...

iff (if and only if), s.t. (such that), w.r.t. (with respect to), w.l.o.g (without loss of generality), R.H.S (right-hand side),.

(for all, for any), (there exist), (if and only if), (implies),.

,.

,. : : will, center, characterize, analyze, behavior, color, connection,... : shall, centre, characterise, analyse, behaviour, colour, connexion,...

,. : : will, center, characterize, analyze, behavior, color, connection,... : shall, centre, characterise, analyse, behaviour, colour, connexion,..., shall, WinEdt,.

:, notation,. relation relationship (, ). work works (, work, works, ). question problem ( question mark, question).

:. each, every, any, all : each every, all, any,.

:. 10. 3 elements of order 3 three elements of order 3 ( 3, ). 1980s, 1980 s. m 2, n+1 d m/2, (n + 1)/d,.

:.,.,,,.

, We will divide the proof into seven cases, and prove the result case by case. ( ) Up to now, we have completed the proof of the theorem. ( )

call say : call, say,.,... is called...... is said to be (to have)... contradict This contradicts the fact...

:,. :. : It follows immediately from... that... We only need to prove that...

well-defined well defined : well, well,. : This mapping is a well-defined homomorphism. This homomorphism is well defined.

:,,. : We begin with an example. The set consists of... The element g corresponds to... There are two elements different from a. The element α runs over...

:. (and, or, either... or, neither... nor ) (after, although, because, if, when, such that ).

and or : G is isomorphic to the groups A, B or C. G is isomorphic to one of the groups A, B and C. between among ( between, among). although though (though ).

:, 1,.,,. ( By definition, By hypothesis, By assumption, By induction ).

a an : a ( ), an ;. : an R-module, an 8-dimensional space, a oneto-one correspondence, a unique

:,. (hyphen), :

- ( ), quasi-normal, group-like element, non-commutative, p-group, goingdown theorem, Springer-Verlag,. (, en dash),, equations (1) (4). (, em dash, ),,.

: \rm, \bf, \it, \sl (slanted), \tt. \sl \it, \it. \Bbb (\mathbb), \frak (\mathfrak), \cal (\mathcal), \mathscr. \mathscr,.

Double-struck capital symbols ( ): A B C D E F G H I J K L M N O P Q R S T U V W X Y Z Mathematical capital fraktur symbols ( ): A B C D E F G H I J K L M N O P Q R S T U V W X Y Z Mathematical small fraktur symbols ( ): a b c d e f g h i j k l m n o p q r s t u v w x y z Capital calligraphic symbols ( ): A B C D E F G H I J K L M N O P Q R S T U V W X Y Z Capital script symbols ( ): A B C D E F G H I J K L M N O P Q R S T U V W X Y Z

:,. : (1) \\ (2) \linebreak (3), α-homo\-morphism α-homomor\-phism (4)

:,. L A TEX.,,..

:,. L A TEX.,,.. A 1 X = C 1, XB 2 = C 2, A 3 XB 3 = C 3 A 1 X = C 1, XB 2 = C 2, A 3 XB 3 = C 3.

:,. L A TEX.,,.. A 1 X = C 1, XB 2 = C 2, A 3 XB 3 = C 3 A 1 X = C 1, XB 2 = C 2, A 3 XB 3 = C 3. D 2 n = a, b a 2n 1 = b 2 = 1, a b = a 1 D 2 n = a, b a 2n 1 = b 2 = 1, a b = a 1.

\langle \rangle, < a, b > a, b. \cdots \ldots (\dots) : a 1 a n, A 1 + + A n, 1,..., n, a 1,..., a n H G H G H divides G

: \deg, \det, \dim, \ker, \max. Hom, End, Rad, Soc, {\rm Hom}, {\rm End}, {\rm Rad}, {\rm Soc}.

., Let F (L : A) = {M : A M, M is a maximal subalgebra of L} Let F (L : A) be the intersection of all maximal subalgebras of L containing A.

: \! \, \; \ \quad \qquad \hspace{...} \vspace{...} $\phantom{...}$

: L A TEX. \subsection \subsubsection.. Definition 2.1, Lemma 2.2, Proposition 2.3, Theorem 2.4, Corollary 2.5. tex :

\newtheorem{thm}{theorem}[section] \newtheorem{cor}{corollary}[section] \newtheorem{lem}{lemma}[section] \newtheorem{prop}{proposition}[section] \newtheorem{def}{definition}[section] \newtheorem{rem}{remark}[section] [section],.

( )., \renewcommand{\theequation} {\thesection.\arabic{equation}} : \label{...}, \ref{...} : \begin{thm}\label{abc}... \end{thm} Theorem \ref{abc}

: tabular, \begin{tabular}{ c c c c c }\hline \multicolumn{2}{ c }{Head 1}& \multicolumn{3}{ c }{Head 2}\\ \hline column 1 & column 2&\multicolumn{2} { c }{column 3 of line 2}&column 4\\ of line 2& of line 2& \multicolumn{2} { c }{}& of line 2\\ \hline column 1& column 2& column 3& column 4& column 5\\ of line 3 & of line 3& of line 3& of line 3& of line 3\\ \hline \end{tabular}

Head 1 Head 2 column 1 column 2 column 3 of line 2 column 4 of line 2 of line 2 of line 2 column 1 column 2 column 3 column 4 column 5 of line 3 of line 3 of line 3 of line 3 of line 3

\begin{tabular}{ c c c c c c c c c c c c c } \hline $m$ & \multicolumn{3}{ c }{1} & 2 & \multicolumn{5}{ c }{3} & 7 & \multicolumn{2}{ c }{11}\\ \hline $n$ & 2 & 3 & 5 & 3 & 2 & 3 & 4 & 5 & 7 & 2 & 2 & 3\\ \hline $d$ & 1 & 1, 3 & 1 & 1 & 1, 2, 4, 10 & 1, 2, 5 & 1 & 1 & 1 & 1 & 2 & 1\\ \hline \end{tabular}

m 1 2 3 7 11 n 2 3 5 3 2 3 4 5 7 2 2 3 d 1 1, 3 1 1 1, 2, 4, 10 1, 2, 5 1 1 1 1 2 1

xypic, \input xypic, $$\xymatrix{&c\otimes C \ar[dl] {\omega} \ar[d]ˆ{w}\\ C {2} \ar[r] {\partial {2}} & C {1} \ar[r] {\partial {1}} &C {0}}$$ $$\xymatrix{c\otimes C \ar[d] {\varphi {\ast} \otimes \varphi {\ast}} \ar[r]ˆ-{\omega} & C 2 \ar[d] {l} \ar[r]ˆ{\delta} & C 1 \ar[d] {m} \ar[r]ˆ{\partial} & C 0 \ar[d] {n}\\ Cˆ{\prime}\otimes Cˆ{\prime} \ar[r] -{\omegaˆ{\prime}} & C 2ˆ{\prime} \ar[r] {\deltaˆ{\prime}} & C 1ˆ{\prime} \ar[r] {\partialˆ {\prime}} & C 0ˆ{\prime}}$$

ω C C w C 2 2 C 1 1 C 0 C C ω C2 δ C1 C0 ϕ ϕ l m n C C ω C 2 δ C 1 C 0

amscd, : $$\CD A @> f >> A@> g>>a \\ @V \alpha VV @VV \beta V@VV \gamma V\\ B @ >i >> B @ >j>>b \\ @V \psi VV @VV \eta V@VV \zeta V\\ C @ >p >> C @>q>>c \endcd$$

α ψ A B C f A i β B η p C g A j γ B ζ q C

picture,,,.,. U (I) R g U (J) f R M R 0 ξ U (I) ξ U (J) η M H(U (I) H(g) (J) H(f) R ) H(U R ) H(M R) 0,.

picture : U (J) R α U (K) ξ U (J) R g 1 g h M R 0 η M N R 0 H(U (J) H(α) H(U (K) ξ U (K) R ) H(M R ) 0 H(g) R ) H(N R ) 0 H(g 1) η N H(h)

\multiput, (1, 3) (4, 1) (3, 2) (3, 4) (2, 1) (2, 3) (1, 4) (4, 2)

picture bezier., \bezier{100}(x 1,y 1)(x 2,y 2)(x 3,y 3), 100, (x 1, y 1 ) (x 3, y 3 ), (x 1, y 1 ) (x 3, y 3 ) (x 2, y 2 ).

B 2 p B 1 l p l p B 2 B 3 l B 1 q B µ,2 or B Φ B p µ,1 q B Φ B µ,2 p B µ,2

, epsfig. : \begin{center} \includegraphics[scale=1.1]{root.eps} \end{center}

:

, jpg, png, pdf. : \begin{center} \begin{figure} \includegraphics[width=130mm]{niaochao.jpg} \end{figure} \end{center} :

: \begin{center} \begin{figure} \includegraphics[width=130mm]{picture.jpg} \end{figure} \end{center} :

:, ( ).

:...

:... The author would like to take the opportunity to express my deep gratitude to Professor....

:

: ( ),.

: ( ),. ( ),.

: ( ),. ( ),., 5 ( ).,,,,,. ( ),,,.

Thank you!