Annotation of OpenXM/doc/compalg/prdec.tex, Revision 1.1.1.1
1.1 noro 1: \chapter{�$B%$%G%"%k$NJ,2r�(B}
2: �$B%$%G%"%k�(B $I \subset R=K[X]$ �$B$KBP$7�(B, $I=I_1\cap I_2$ �$B$H=q$1$k;~�(B,
3: $V(I) = V(I_1) \cup V(I_2)$ �$B$,@.$jN)$D�(B. �$B$9$J$o$A�(B, �$B%$%G%"%k$NJ,2r�(B
4: �$B$ONmE@$NJ,2r$rM?$($k�(B. �$B$h$j>\$7$/8@$($P�(B, �$BNmE@$NJ,2r$O�(B radical �$B$N�(B
5: �$BJ,2r$KBP1~$9$k�(B. �$BNmE@$r2DG=$J8B$jJ,2r$9$k$3$H$O�(B, �$BBe?tE*=89g$r�(B
6: �$B4{LsJ,2r$9$k$3$H$KBP1~$9$k�(B. �$BJ}Dx<0$K$D$$$F8@$($P�(B, �$B0lHL$K2r$N�(B
7: �$BJ,2r$K$h$j�(B, �$B$h$j07$$$d$9$$2r$NI=8=$rM?$($k$3$H$,$G$-$k�(B.
8:
9: \section{�$BAG%$%G%"%k�(B, �$B=`AG%$%G%"%k�(B, �$B=`AG%$%G%"%kJ,2r�(B}
10:
11: �$B0J2<�(B, $R=K[X]$ �$B$r8GDj$7$F9M$($k�(B.
12:
13: \begin{df}
14: �$B%$%G%"%k�(B $I \subset R$ �$B$,AG%$%G%"%k�(B (prime ideal)�$B$H$O�(B,
15: \begin{center}
16: $ab \in I$ �$B$+$D�(B $a\notin I$ �$B$J$i$P�(B $b \in I$
17: \end{center}
18: �$B$J$k$3$H�(B. �$B$3$l$O�(B $R/I$ �$B$,@00h$H$J$k$3$H$HF1CM�(B.
19: \end{df}
20:
21: \begin{df}
22: �$B%$%G%"%k�(B $I \subset R$ �$B$,=`AG%$%G%"%k�(B (primary ideal)�$B$H$O�(B,
23: \begin{center}
24: $ab \in I$ �$B$+$D�(B $a\notin I$ �$B$J$i$P�(B $b \in \sqrt{I}$
25: \end{center}
26: �$B$J$k$3$H�(B.
27: \end{df}
28:
29: \begin{df}
30: �$B%$%G%"%k�(B $I \subset R$ �$B$,�(B $I=\sqrt{I}$ �$B$rK~$?$9$H$-�(B $I$ �$B$O�(B radical �$B%$%G%"%k�(B
31: �$B$G$"$k$H$$$&�(B. $\sqrt{I}$ �$B$O�(B radical �$B%$%G%"%k$G$"$k�(B.
32: \end{df}
33:
34: \begin{lm}
35: $\sqrt{I} = \cap_{I\subset P:prime}P$
36: \end{lm}
37: \proof $I \subset P$ �$B$J$i$P�(B $\sqrt{I} \subset \sqrt{P}=P$ �$B$h$j�(B
38: $\subset$ �$B$O�(B OK. �$B1&JU$,:8JU$r??$K4^$`$H$9$l$P�(B, �$B$"$k�(B
39: $f \in \cap_{I\subset P:prime}P \setminus \sqrt{I}$ �$B$,B8:_$9$k�(B. �$B$3$N$H$-�(B,
40: $S=\{f,f^2,\cdots,\}$ �$B$H$*$1$P�(B,
41: $S \cap \sqrt{I} = \emptyset$.
42: $F = \{J:$ �$B%$%G%"%k�(B $\mid \sqrt{I} \subset J$ �$B$+$D�(B $S \cap J = \emptyset \}$ �$B$H�(B
43: �$B$*$/$H�(B, $F \neq \emptyset$ �$B$G�(B, �$BJq4^4X78$K4X$7$F5"G<E*�(B. �$B$h$C$F6KBg85�(B $J_0$
44: �$B$,B8:_$9$k�(B.
45:
46: \noi
47: \underline{�$B<gD%�(B\,} $J_0$ �$B$OAG�(B.
48:
49: \noi
50: \proof $ab\in J_0$ �$B$+$D�(B $a, b\notin J_0$ �$B$H$9$k�(B. $J_0$ �$B$N6KBg@-$h$j�(B,
51: $S \cap (J_0+Id(a)) \neq \emptyset$ �$B$+$D�(B $S \cap (J_0+Id(b)) \neq \emptyset$.
52: �$B$9$J$o$A�(B, �$B$"$k<+A3?t�(B $s,t > 0$, $c,d \in J_0$, $e,f \in R$ �$B$,B8:_$7$F�(B,
53: $f^s=c+ae$, $f^t=d+bf$ �$B$H=q$1$k�(B. �$B$9$k$H�(B $f^{s+t}=abef+cd+aed+cbf \in J_0$
54: �$B$H$J$jL7=b�(B. �$B$h$C$F�(B $J_0$ �$B$OAG�(B. \qed
55:
56: \noi
57: �$B$3$N<gD%$K$h$j�(B, $f \notin J_0$ �$B$+$D�(B $I \subset J_0$ �$B$J$kAG%$%G%"%k�(B $J_0$ �$B$,�(B
58: �$BB8:_$9$k�(B. �$B$3$l$OL7=b�(B. \qed
59:
60: \begin{lm}
61: �$B%$%G%"%k�(B $I \subset R$ �$B$,=`AG$J$i$P�(B, $\sqrt{I}$ �$B$OAG%$%G%"%k�(B.
62: \end{lm}
63:
64: \begin{df}
65: �$B%$%G%"%k�(B $I \subset R$ �$B$,=`AG$G�(B $\sqrt{I}=P$ �$B$N$H$-�(B, $I$ �$B$O�(B $P$-�$B=`AG$H$$$&�(B.
66: �$B$^$?�(B $P$ �$B$rIUB0AG%$%G%"%k�(B (associated prime ideal)�$B$H8F$V�(B.
67: \end{df}
68:
69: \begin{df}
70: �$B%$%G%"%k�(B $I \subset R$ �$B$,�(B
71: \begin{center}
72: $I = I_1 \cap I_2 \Rightarrow I = I_1$ �$B$^$?$O�(B $I = I_2$
73: \end{center}
74: �$B$rK~$?$9$H$-�(B, $I$ �$B$O4{Ls$H$$$&�(B.
75: \end{df}
76:
77: \begin{lm}
78: �$B4{Ls%$%G%"%k$O=`AG�(B.
79: \end{lm}
80: \proof $I$ �$B$,4{Ls$H$7�(B, $fg \in I$ �$B$+$D�(B $f\notin I$ �$B$H$9$k�(B.
81: $I:g^\infty = I:g^s$ �$B$J$k�(B $s$ �$B$r$H$k$H�(B,
82: $$I = (I+Id(g^s)) \cap (I+Id(f)).$$
83: �$B$3$l$O�(B, $h = a+bg^s = c+df$ ( $a,c \in I$ ) �$B$J$k�(B $h$ �$B$r$H$k$H�(B,
84: $$ bg^{s+1} = (c-a)g+dfg \in I \Rightarrow b \in I:g^{s+1}=I:g^s \Rightarrow
85: bg^s \in I \Rightarrow h \in I$$
86: �$B$+$i$o$+$k�(B. $I \neq I+Id(f)$ �$B$@$+$i�(B $I=I+Id(g^s)$. �$B$9$J$o$A�(B $g \in \sqrt{I}$.
87: \qed
88:
89: \begin{th}
90: �$BG$0U$N%$%G%"%k�(B $I \subset R$ �$B$OM-8B8D$N=`AG%$%G%"%k$N8r$o$j$H$7$F=q$1$k�(B.
91: \end{th}
92: \proof $I$ �$B$,M-8B8D$N4{Ls%$%G%"%k$NM-8B8D$N8r$o$j$G=q$1$k$3$H$r�(B
93: �$B$$$($P$h$$�(B. $I$ �$B$,4{Ls$G$J$1$l$P�(B, $I = I_1 \cap I_2$ �$B$H�(B, $I$ �$B$r??$K�(B
94: �$B4^$`%$%G%"%k$N8r$o$j$G=q$1$k�(B. $I_1$ �$B$,4{Ls$G$J$1$l$P�(B, $I_1$ �$B$OF1MM$N�(B
95: �$B8r$o$j$G=q$1$k�(B. �$B$b$7�(B, �$B$3$NA`:n$,M-8B2s$G=*$i$J$1$l$P�(B, �$B%$%G%"%k$N??$N�(B
96: �$BL58BA}BgNs$,B8:_$9$k$3$H$K$J$j�(B, $R$ �$B$N�(B Noether �$B@-$KH?$9$k�(B. \qed
97:
98: \begin{df}
99: �$B%$%G%"%k�(B $I$ �$B$N=`AGJ,2r$H$O�(B, $I=\cap_{i=1}^r Q_i$ ($Q_i$:�$B=`AG�(B) �$B$J$kI=�(B
100: �$B<($N$3$H�(B. �$B3F�(B $Q_i$ �$B$r=`AG@.J,$H8F$V�(B. �$B=`AGJ,2r$,�(B minimal �$B$H$O�(B, �$BA4$F$N�(B
101: $\sqrt{Q_i}$ �$B$,Aj0[$J$j�(B, $\cap_{j\neq i} Q_j {\not \subset} Q_i$ �$B$J$k�(B
102: �$B$3$H�(B.
103: \end{df}
104:
105: \begin{lm}
106: �$B=`AG%$%G%"%k�(B $I$, $J$ �$B$K$D$$$F�(B, $\sqrt{I} = \sqrt{J}$ �$B$J$i$P�(B $I\cap J$ �$B$b=`AG�(B.
107: \end{lm}
108: \proof $ab \in I\cap J$ �$B$+$D�(B $a\notin I\cap J$ �$B$H$9$k�(B. $a\notin I$
109: �$B$N$H$-�(B, $b \in \sqrt{I}$, $a\notin J$ �$B$N$H$-�(B $b\in \sqrt{J}$ �$B$,@.$jN)$D�(B.
110: $\sqrt{I\cap J} = \sqrt{I} \cap \sqrt{J}$ �$B$h$j�(B, $b \in \sqrt{I\cap J}$. \qed
111:
112: \begin{th}
113: �$BG$0U$N%$%G%"%k�(B $I \subset R$ �$B$O�(B minimal �$B$J=`AGJ,2r$r;}$D�(B.
114: \end{th}
115: \proof �$BJdBj$h$j�(B, �$BIUB0AG%$%G%"%k$,0lCW$9$k=`AG@.J,$O8r$o$j$r$H$k$3$H$K�(B
116: �$B$h$j0l$D$K$^$H$a$k$3$H$,$G$-$k�(B. �$B$=$N8e�(B, $\cap_{j\neq i} Q_j \subset Q_i$
117: �$B$J$k�(B $Q_i$ �$B$r<h$j=|$$$F$b;D$j$O�(B $I$ �$B$N=`AGJ,2r$H$J$k$+$i�(B, �$B$3$l$r�(B
118: �$B7+$jJV$7$F�(B minimal �$B$J=`AGJ,2r$rF@$k�(B. \qed
119:
120: \noi
121: �$B$5$i$K�(B, �$B<!$,@.$jN)$D�(B.
122: \begin{th}
123: minimal �$B$J=`AGJ,2r$ND9$5$O0l0UE*$G�(B, �$BIUB0AG%$%G%"%k$O=89g$H$7$F0lCW$9$k�(B.
124: \end{th}
125:
126: \begin{df}
127: �$B%$%G%"%k�(B $I$ �$B$N=`AG@.J,�(B $Q$ �$B$NIUB0AG%$%G%"%k$,6K>.$N;~8IN)�(B (isolated) �$B$H�(B
128: �$B$$$&�(B. �$B$=$&$G$J$$$H$-KdKW�(B (embedded) �$B$H$$$&�(B.
129: \end{df}
130:
131: \begin{re}
132: �$B8IN)�(B, �$BKdKW$H$$$&L>>N$O�(B, �$B$=$N�(B variety �$B$NMM;R$K$h$k�(B. �$B=`AG@.J,�(B $Q$ �$B$NIUB0�(B
133: �$BAG%$%G%"%k$r�(B $P$ �$B$H$9$k�(B. $Q$ �$B$,8IN)$N$H$-�(B, $P$ �$B$OB>$NIUB0AG%$%G%"%k$r�(B
134: �$B4^$^$J$$$+$i�(B, variety �$B$G$_$l$P�(B, $V(P)$ �$B$OB>$N@.J,$,Dj5A$9$k�(B variety �$B$K�(B
135: �$B4^$^$l$J$$�(B. �$B0lJ}�(B, $Q$ �$B$,KdKW$J$i$P�(B, $P$ �$B$O$"$kIUB0AG%$%G%"%k�(B $P'$ �$B$r4^�(B
136: �$B$`$+$i�(B, variety �$B$G$_$l$P�(B $V(P) \subset V(P')$ �$B$9$J$o$AKdKW$7$F$$$k�(B.
137: \end{re}
138:
139: \section{�$B=`AGJ,2r$N35N,�(B}
140:
141: �$B=`AGJ,2r$N$?$a$N<g$J<jCJ$O�(B, {\bf �$B%$%G%"%k>&�(B},
142: {\bf extension}, {\bf contraction} �$B$*$h$SB?9`<0$N0x?tJ,2r$G$"$k�(B.
143:
144: \begin{lm}
145: �$B%$%G%"%k�(B $I$, $f \in R \setminus I$ �$B$KBP$7�(B, $I:f^m = I:f^\infty$ �$B$J$k�(B
146: $m$ �$B$r$H$l$P�(B,
147: $$I = I:f^\infty \cap (I+Id(f^m))$$
148: \end{lm}
149: \proof $h \in$ �$B1&JU$H$9$k$H�(B, $hf^m \in I$ �$B$+$D�(B $h=a+bf^m$ ($a \in I$)
150: �$B$H$+$1$k�(B. �$B$h$C$F�(B $bf^{2m} = hf^m-af^m \in I$ �$B$9$J$o$A�(B $b \in I:f^{2m}=I:f^m$
151: �$B$3$l$+$i�(B $h \in I$. \qed
152:
153: \begin{df}(extension)\\
154: $Y \subset X$ �$B$KBP$7�(B, $I^e=K(Y)[X\setminus Y]I$ �$B$HDj5A$9$k�(B.
155: \end{df}
156:
157: \begin{df}
158: �$B%$%G%"%k�(B $\dim(I)=d$ �$B$H$9$k$H�(B, �$B<!85$NDj5A$K$h$j�(B,
159: $|Y|=d$ �$B$J$k�(B independent set $Y \subset X$ �$B$,$H$l$k�(B.
160: �$B$3$l$r�(B maximally independent set �$B$H$h$V�(B.
161: \end{df}
162:
163: \begin{lm}
164: $Y$ �$B$,�(B maximally independent set �$B$N$H$-�(B
165: $I^e$ �$B$O�(B $K(Y)$ �$B>e�(B 0 �$B<!85%$%G%"%k�(B.
166: \end{lm}
167: \proof �$BDj5A$K$h$j�(B, �$BA4$F$N�(B $x \in X\setminus Y$ �$B$KBP$7�(B,
168: $I \cap K[\{x\} \cup Y] \neq 0$ �$B$@$+$i�(B, $K(Y)$ �$B>e$G9M$($l$P�(B
169: $x$ �$B$N0lJQ?tB?9`<0$,�(B $I^e$ �$BCf$KB8:_$9$k$3$H$K$J$k�(B. �$B$h$C$F�(B $I^e$ �$B$O�(B
170: 0 �$B<!85�(B.\qed
171:
172: \begin{lm}
173: $<$ �$B$r�(B $Y < (X\setminus Y)$ �$B$J$k�(B block order �$B$H$9$k�(B. $G$ �$B$,�(B $I$ �$B$N�(B
174: $<$ �$B$K4X$9$k%0%l%V%J4pDl$J$i$P�(B, $G$ �$B$O�(B, $I^e$ �$B$N�(B, �$BF1$8�(B order �$B$K�(B
175: �$B4X$9$k%0%l%V%J4pDl�(B.
176: \end{lm}
177:
178: \begin{df}(contraction)\\
179: �$B%$%G%"%k�(B $J \subset K(Y)[X\setminus Y]$ �$B$KBP$7�(B, $J\cap K[X]$ �$B$r�(B
180: $J$ �$B$N�(B contraction �$B$H$h$S�(B, $J^c$ �$B$H=q$/�(B.
181: \end{df}
182:
183: \begin{pr}
184: $I$ �$B$r%$%G%"%k�(B, $<$ �$B$r�(B $Y < (X\setminus Y)$ �$B$J$k�(B block order �$B$H$7�(B, $G$
185: �$B$r�(B $<$ �$B$K4X$9$k�(B $I$ �$B$N%0%l%V%J4pDl$H$9$k�(B. �$B$3$N$H$-�(B,
186: $$f = \LCM\{HC(g) \mid g \in G\}$$
187: (�$B$?$@$7�(B, $HC(g)$ �$B$O�(B $K(Y)[X\setminus Y]$ �$B$N85$H$7$F$H$k�(B) �$B$H$9$l$P�(B,
188: $I^{ec} = I:f^\infty$
189: \end{pr}
190:
191: �$B$3$l$i$H�(B, �$B8e$G=R$Y$k�(B 0 �$B<!85%$%G%"%k$N=`AGJ,2r$rMQ$$$F�(B, �$B<!$N%"%k%4%j%:%`�(B
192: �$B$,F@$i$l$k�(B.
193:
194: \begin{al} \cite{GTZ}
195: \label{gtz}
196: \begin{tabbing}
197: Input : �$B%$%G%"%k�(B $I \in R=K[X]$\\
198: Output : \= $I = \cap Q_i$ ($I$ �$B$N�(B minimal �$B$J=`AGJ,2r�(B)\\
199: \> $P_i = \sqrt{Q_i}$ ($Q_i$ �$B$NIUB0AG%$%G%"%k�(B)\\
200:
201: $Y \leftarrow$ maximally independent set modulo $I$\\
202: $\cap \bar{Q_i} \leftarrow I^e$ (0 �$B<!85�(B) �$B$N�(B $K(Y)$ �$B>e$N=`AGJ,2r�(B\\
203: $(f,s) \leftarrow$ $I^{ec} = I:f^\infty = I:f^s$ �$B$J$k�(B $f$ �$B$*$h$S�(B $s$\\
204: $\cap R_j \leftarrow I+Id(f^s)$ �$B$N=`AGJ,2r�(B\\
205: return $\bar{Q_i}^c \cap (\cap R_j)$
206: \end{tabbing}
207: \end{al}
208:
209: \noi
210: $I+Id(f^s)$ �$B$O�(B $I$ �$B$r??$K4^$`$+$i�(B, �$BDd;_@-$OJ]>Z$5$l$k�(B. �$B$3$N%"%k%4%j%:%`�(B
211: �$B$r<B8=$9$k$?$a$K$O�(B,
212:
213: \begin{itemize}
214: \item 0 �$B<!85%$%G%"%k$N=`AGJ,2r�(B
215:
216: \item maximally independent set �$B$NA*$SJ}�(B
217: \end{itemize}
218:
219: \noi
220: �$B$N%"%k%4%j%:%`$rM?$($kI,MW$,$"$k�(B. �$B$3$NFb�(B, maximally independent set
221: �$B$K4X$7$F$O�(B, �$B<!$NL?Bj$,$"$k�(B.
222:
223: \begin{pr}
224: $I$ �$B$r%$%G%"%k$H$7�(B, $MB_<$ �$B$r�(B, $R/I$ �$B$N�(B,
225: �$BA4<!?t$D$-�(B order $<$ �$B$K4X$9$k�(B monomial �$B$K$h$k�(B
226: $K$-�$B4pDl$H$9$k�(B.
227: �$B$3$N$H$-�(B, $\dim(I) = =max(|U| \mid T(U) \subset MB_<)$.
228: \end{pr}
229:
230: \noi
231: �$B$3$NL?Bj$K4p$E$$$F�(B, �$B0l$D$N%0%l%V%J4pDl$+$i�(B, $\dim(I)$ �$B$r5a$a$k%"%k%4%j%:%`�(B
232: �$B$,9=@.$G$-$k�(B. �$B0J2<$G�(B, 0 �$B<!85%$%G%"%k$N=`AGJ,2r$K$D$$$F35N,$r=R$Y$k�(B.
233:
234: \section{0 �$B<!85%$%G%"%k$N=`AGJ,2r�(B}
235:
236: $I \subset R=K[X]$ �$B$r�(B 0 �$B<!85%$%G%"%k$H$9$k�(B.
237:
238: \begin{df}
239: $f \in K[X]$ �$B$,�(B $I$ �$B$N�(B separating element �$B$H$O�(B,
240: $I$ �$B$N�(B $\overline{K}$ �$B>e$NAj0[$kNmE@�(B $a,b$ �$B$KBP$7�(B, $f(a) \neq f(b)$
241: �$B$J$k$3$H�(B.
242: \end{df}
243:
244: \begin{df}
245: $f\in K[X]$ �$B$H$9$k�(B. $t \notin X$ �$B$J$kITDj85$r$H$j�(B, $R[t]$ �$B$N%$%G%"%k�(B
246: $J = IR[t]+Id(t-f)$ �$B$r9M$($l$P�(B, $J$ �$B$b�(B 0 �$B<!85%$%G%"%k$h$j�(B,
247: $(I+Id(t-f)) \cap K[t] = Id(g(t))$ �$B$J$k%b%K%C%/$J�(B $g \in K[t]$ �$B$,B8:_$9$k�(B.
248: $g$ �$B$r�(B $f$ �$B$N�(B $I$ �$B$K4X$9$k:G>.B?9`<0$H8F$V�(B.
249: \end{df}
250:
251: \begin{pr}
252: $f$ �$B$r�(B $I$ �$B$N�(B separating element �$B$H$7�(B, $g$ �$B$r�(B $f$ �$B$N:G>.B?9`<0$H$9$k�(B.
253: �$B$3$N$H$-�(B,
254: $$g = g_1^{e_1}\cdots g_r^{e_r}$$
255: ($g_i$ �$B$O�(B$K$ �$B>e4{Ls�(B) �$B$H0x?tJ,2r$9$l$P�(B,
256: $$I = (I+g_1^{e_1}) \cap \cdots \cap (I+g_r^{e_r})$$
257: �$B$O�(B $I$ �$B$N=`AGJ,2r$G�(B,
258: $$\sqrt{I} = \sqrt{I+g_1} \cap \cdots \cap \sqrt{I+g_r}$$
259: �$B$O�(B $\sqrt{I}$ �$B$NAG%$%G%"%kJ,2r$H$J$k�(B. �$B$9$J$o$A�(B, $\sqrt{I+g_i}$ �$B$O�(B
260: $I+g_i^{e_i}$ �$B$NIUB0AG%$%G%"%k�(B.
261: \end{pr}
262:
263: \noi
264: �$B%$%G%"%k$N�(B seratating element �$B$O�(B, �$BD>@\5a$a$k$N$O:$Fq$G$"$k�(B. �$BDj5A$K$h$j�(B,
265: $\sqrt{I}$ �$B$N�(B separating element �$B$,�(B $I$ �$B$N�(B seratating element �$B$H$J$k$3$H�(B
266: �$B$rMQ$$$F�(B, $\sqrt{I}$ �$B$r7W;;$7�(B, separating element �$B$r5a$a$k$3$H$r9M$($k�(B.
267:
268: \begin{df}
269: �$BBN�(B $K$ �$B$,40A4BN$H$O�(B, �$B4{LsB?9`<0$,A4$FJ,N%E*$G$"$k$3$H�(B.
270: \end{df}
271:
272: \begin{re}
273: �$B0J2<$NL?Bj�(B, �$B%"%k%4%j%:%`$G$O�(B, �$B4pACBN$,40A4BN$G$"$k$3$H$rMW5a$9$k$b$N$,�(B
274: �$B$$$/$D$+$"$k�(B. �$BI8?t�(B 0 �$B$NBN$OA4$F40A4BN$G$"$k�(B. �$B$^$?�(B, �$BM-8BBN$b40A4BN$G$"�(B
275: �$B$k$,�(B, �$BM-8BBN>e$NM-M}4X?tBN$O40A4BN$G$J$$�(B. �$B=`AGJ,2r$K$*$$$F$O4pACBN>e$N�(B
276: �$BM-M}4X?tBN$r78?t$H$9$kB?9`<04D$G$N7W;;$r9T$&$?$a�(B, �$B4pACBN$NI8?t$O�(B 0
277: �$B$K8B$i$l$k�(B.
278: \end{re}
279:
280: \begin{pr}
281: $K$ �$B$,40A4BN$J$i�(B,
282: \begin{center}
283: 0 �$B<!85%$%G%"%k�(B $I$ �$B$,�(B radical $\Leftrightarrow$ $I$ �$B$,�(B, �$B3FJQ?t$K$D$$$F�(B
284: �$B0lJQ?tL5J?J}B?9`<0$r4^$`�(B.
285: \end{center}
286: \end{pr}
287:
288: \begin{pr}
289: $K$ �$B$,40A4BN$H$9$k$H�(B, 0 �$B<!85�(B radical �$B%$%G%"%k�(B $I$ �$B$NNmE@$N8D?t$O�(B
290: $\dim_K K[X]/I$ �$B$KEy$7$$�(B.
291: \end{pr}
292:
293: \begin{df}
294: �$BB?9`<0�(B $f$ �$B$,�(B $f = f_1^{e_1}\cdots f_m^{e_m}$ ($f_i$ �$B$OL5J?J}�(B) �$B$H=q$1$?�(B
295: �$B$H$-�(B, $f_1\cdots f_m$ �$B$r�(B $f$ �$B$NL5J?J}ItJ,$H8F$V�(B.
296: \end{df}
297:
298: \begin{co}
299: $I \cap K[x_i] = Id(f_i(x_i))$ �$B$H$9$k�(B.
300: $$\sqrt{I} = I+Id(h_1,\cdots,h_n)$$
301: ($h_i$ �$B$O�(B, $f_i$ �$B$NL5J?J}ItJ,�(B)
302: \end{co}
303:
304: \noi
305: radical �$B%$%G%"%k$KBP$7$F$O�(B, separating element �$B$NH=Dj$O<!$N$h$&$K�(B
306: �$B=R$Y$i$l$k�(B.
307:
308: \begin{pr}
309: $K$ �$B$r40A4BN$H$7�(B, �$B%$%G%"%k�(B $I$ �$B$,�(B 0 �$B<!85�(B radical �$B$H$9$k�(B. $f$ �$B$N:G>.�(B
310: �$BB?9`<0$r�(B $g$ �$B$H$9$k$H�(B,
311: \begin{center}
312: $f$ �$B$,�(B separating element $\Leftrightarrow$ $\deg(f)=\dim_K R/I$
313: \end{center}
314: �$B$3$N$h$&$J�(B $f$ �$B$OB8:_$9$k�(B. $K$ �$B$,L58BBN$J$i$P�(B, $f$ �$B$H$7$F�(B $X$ �$B$N85$N@~�(B
315: �$B7AOB$+$iA*$Y$k�(B.
316: \end{pr}
317:
318: \noi
319: �$B0J>e$,�(B, �$B40A4BN>e$N�(B 0 �$B<!85%$%G%"%k$N=`AGJ,2r$N35N,$G$"$k�(B. �$BD>A0$N�(B
320: �$BL?Bj$K4XO"$7$F�(B, �$B<!$N$3$H$,@.$jN)$D�(B.
321:
322: \begin{pr}(shape lemma)\\
323: $I$ �$B$r40A4BN�(B $K$ �$B>e$N�(B 0 �$B<!85�(B radical �$B%$%G%"%k�(B �$B$H$7�(B,
324: $f$ �$B$r�(B separating element �$B$H$9$k�(B.
325: $z << X$ �$B$J$kG$0U$N=g=x$N$b$H$G�(B, $R[z]$ �$B$N%$%G%"%k�(B $IR[z]+Id(z-f)$ �$B$O�(B
326: $$\{x_1-f_1(z),\cdots,x_n-f_n(z),z-f_z(z),m(z)\}$$
327: �$B$H$$$&7A$N%0%l%V%J4pDl$r$b$D�(B. �$B$3$N7A$N4pDl$r�(B shape basis �$B$H8F$V�(B.
328: \end{pr}
329: \proof $z$ �$B$N:G>.B?9`<0�(B $m$ �$B$O�(B $f$ �$B$N:G>.B?9`<0$K0l�(B
330: �$BCW$7�(B, �$B$=$N<!?t$O�(B $\dim_K K[X]/I$ �$B$HEy$7$/$J$k�(B. $z << X$
331: �$B$J$k=g=x$N$b$H$G$O�(B, �$B%0%l%V%J4pDl$O�(B $m$ �$B$r4^$_�(B, �$B%b%N%$%G%"%k$r�(B
332: �$B9M$($l$P�(B, $m$ �$B0J30$N85$NF,9`$O3FJQ?t$N�(B 1 �$B<!<00J30$G$O$"$j$($J$$�(B. \qed\\
333: shape basis �$B$O�(B, 0 �$B<!85%$%G%"%k$NNmE@$r?tCM$G5a$a$h$&$H$9$k>l9g$K�(B,
334: �$B8+3]$1>eM-8z$J7A$r$7$F$$$k�(B. �$B<B:]�(B, $I$ �$B$NNmE@$O�(B, $f_n(x_n)$ �$B$NNmE@$K�(B
335: �$B$h$j�(B,
336: $$\{(f_1(\alpha),\cdots,f_n(\alpha))\mid m(\alpha) = 0\}$$
337: �$B$H=q$1$k�(B. �$B$7$+$7�(B, �$BM-M}?tBN>e$G<B:]$K�(B shape basis �$B$r5a$a$F8+$k$H�(B,
338: $m$ �$B$N78?t$KHf$Y$F�(B $f_i$ �$B$N78?t$,6K$a$FBg$-$/$J$k$3$H$,�(B
339: �$BB?$$�(B. �$B$3$N:$Fq$r9nI~$9$k$?$a�(B, �$B<!$NJ}K!$,9M0F$5$l$?�(B.
340:
341: \begin{pr}(rational univariate representation; RUR)\\
342: \label{RUR}
343: �$BA0L?Bj$HF1$82>Dj$N$b$H$G�(B, $IR[z]+Id(z-f)$ �$B$N4pDl$H$7$F�(B,
344: $$\{ m'x_1-g_1(z), \cdots, m'x_{z}-g_n(z), m(z)\}$$
345: �$B$H$$$&7A$N$b$N$,$H$l$k�(B.
346: \end{pr}
347: \noi
348: $m$ �$B$O�(B shape basis �$B$N>l9g$H0lCW$9$k�(B. �$B$3$N4pDl$K$h$k$NNmE@$NI=8=$O�(B,
349: $$\{({g_1(\alpha)\over m'(\alpha)},\cdots,{g_n(\alpha)\over
350: m'(\alpha)}) \mid m(\alpha)=0\}$$
351: \noi
352: �$B$H=q$1$k�(B. �$BB?$/$N<BNc$K$*$$$F�(B, $g_i$ �$B$N3F78?t$,�(B, $m$ �$B$N78?t$HF1DxEY$N�(B
353: �$BBg$-$5$K2!$($i$l$k$3$H$,J,$+$C$F$*$j�(B, 0 �$B<!85�(B radical�$B$NNmE@$NI=8=$H$7$F�(B
354: �$B$O�(B RUR �$B$K$h$k$b$N$,M%$l$F$$$k$H$$$C$F$h$$�(B.
355: RUR �$B$N7W;;K!$H$7$F$O�(B, �$BBP>N<0$K$h$kJ}K!$,:G=i$KDs0F$5$l$F$$$,�(B,
356: modular change of ordering �$B$HF1MM$N<jK!$rE,MQ$9$k$3$H$b$G$-�(B, RUR �$B$,�(B
357: �$B7k2L$NBg$-$5DxEY$G7W;;$G$-$k�(B \cite{NY2}.
358:
359: \section{�$B=`AGJ,2r$NNc�(B}
360: �$B<!$NNc$O�(B, symplectic integrator �$B$H8F$P$l$k0BDj$J@QJ,%9%-!<%`$N�(B
361: �$B?tCM7W;;K!$K4X$7$F8=$l$?J}Dx<07O$G$"$k�(B \cite{SYMP}.
362:
363: \vskip\baselineskip
364: {\small
365: $\left\{
366: \parbox[c]{6in}{
367: $d_1+d_2+d_3+d_4=1, c_1+c_2+c_3+c_4=1,$\\
368: $(6d_1c_2+(6d_1+6d_2)c_3+(6d_1+6d_2+6d_3)c_4)c_1
369: +(6d_2c_3+(6d_2+6d_3)c_4)c_2+6d_3c_4c_3=1,$\\
370: $(3d_1^2+(6d_2+6d_3+6d_4)d_1+3d_2^2+(6d_3+6d_4)d_2+3d_3^2+6d_4d_3+3d_4^2)c_1$\\
371: $+(3d_2^2+(6d_3+6d_4)d_2+3d_3^2+6d_4d_3+3d_4^2)c_2+(3d_3^2+6d_4d_3+3d_4^2)c_3+3d_4^2c_4=1,$\\
372: $(3d_1+3d_2+3d_3+3d_4)c_1^2+((6d_2+6d_3+6d_4)c_2+(6d_3+6d_4)c_3+6d_4c_4)c_1$\\
373: $+(3d_2+3d_3+3d_4)c_2^2+((6d_3+6d_4)c_3+6d_4c_4)c_2+(3d_3+3d_4)c_3^2+6d_4c_4c_3+3d_4c_4^2=1,$\\
374: $(24d_2d_1c_3+(24d_2+24d_3)d_1c_4)c_2+(24d_3d_1+24d_3d_2)c_4c_3=1,$\\
375: $(12d_2^2+(24d_3+24d_4)d_2+12d_3^2+24d_4d_3+12d_4^2)d_1c_2
376: +((12d_3^2+24d_4d_3+12d_4^2)d_1$\\
377: $+(12d_3^2+24d_4d_3+12d_4^2)d_2)c_3
378: +(12d_4^2d_1+12d_4^2d_2+12d_4^2d_3)c_4=1,$\\
379: $4d_1c_2^3+(12d_1c_3+12d_1c_4)c_2^2+(12d_1c_3^2+24d_1c_4c_3
380: +12d_1c_4^2)c_2+(4d_1+4d_2)c_3^3$\\
381: $+(12d_1+12d_2)c_4c_3^2+(12d_1+12d_2)c_4^2c_3+(4d_1+4d_2+4d_3)c_4^3=1$
382: }
383: \right.$}
384:
385: \vskip\baselineskip
386: \noindent
387: �$B=`AGJ,2r$K$h$j�(B, �$B$3$NJ}Dx<0$O0J2<$N$h$&$KJ,2r$5$l$k$3$H$,J,$+$k�(B.
388:
389: \vskip\baselineskip
390: $\left\{
391: \parbox[c]{8in}{
392: $24c_4^2-6c_4+1=0$\\
393: $c_1=-c_4+{1\over 4}$,
394: $c_2=-c_4+{1\over 2}$,
395: $c_3=c_4+{1\over 4}$
396: $d_1=-2c_4+{1\over 2}$,
397: $d_2={1\over 2}$,
398: $d_3=2c_4$,
399: $d_4=0$}
400: \right.$
401:
402: $\left\{
403: \parbox[c]{8in}{
404: $6c_4^3-12c_4^2+6c_4-1=0$\\
405: $c_1=0$,
406: $c_2=c_4$,
407: $c_3=-2c_4+1$
408: $d_1={1\over 2}c_4$,
409: $d_2=-{1\over 2}c_4+{1\over 2}$,
410: $d_3=-{1\over 2}c_4+{1\over 2}$,
411: $d_4={1\over 2}c_4$}
412: \right.$
413:
414: $\left\{
415: \parbox[c]{8in}{
416: $48c_4^3-48c_4^2+12c_4-1=0$\\
417: $c_1=c_4$,
418: $c_2=-c_4+{1\over 2}$,
419: $c_3=-c_4+{1\over 2}$
420: $d_1=2c_4$,
421: $d_2=-4c_4+1$,
422: $d_3=2c_4$,
423: $d_4=0$}
424: \right.$
425:
426: $\left\{
427: \parbox[c]{8in}{
428: $6c_4^2-3c_4+1=0$\\
429: $c_1=0$,
430: $c_2=-c_4+{1\over 2}$,
431: $c_3={1\over 2}$
432: $d_1=-{1\over 2}c_4+{1\over 4}$,
433: $d_2=-{1\over 2}c_4+{1\over 2}$,
434: $d_3={1\over 2}c_4+{1\over 4}$,
435: $d_4={1\over 2}c_4$}
436: \right.$
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