% $Header: /home/was/papers/thesis/RCS/symbols.tex,v 1.3 2000/05/11 03:12:03 was Exp $ \mbox{} \vspace{7ex} \section*{\Huge List of Symbols} \addcontentsline{toc}{chapter}{List of Symbols} \begin{tabular}{llr} {\bf \large Symbol} \hspace{4em} & {\bf \large Definition} & {\bf \large Page}\\ &\vspace{-2ex}\\ $\Adual$ & dual to $A$ & \pageref{pg:dual}\\ $\sB_k(N,\eps)$ & module of boundary modular symbols & \pageref{def:boundarysymbols}\\ $c_A$ & Manin constant of~$A$ & \pageref{defn:maninconstant}\\ $m_A$ & modular degree & \pageref{defn:modulardegree}\\ $\e_i$ & $i$th winding element $X^{i-1}Y^{k-2-(i-1)}\{0,\infty\}$ &\pageref{defn:windingelement}\\ $\sM_k(N,\eps)$& module of modular symbols & \pageref{defn:modsym}\\ $\esM_k(N,\eps)$& module of extended modular symbols & \pageref{defn:extendedmodsyms}\\ $M[I]$ & $\intersect_{a\in I} \ker(a)$ & \\ $P(X,Y)\{\alp,\beta\}$ & higher weight modular symbol & \pageref{pg:higherweightmodsym}\\ $[P(X,Y),(u,v)]$ & higher weight Manin symbol & \pageref{defn:maninsymbols}\\ %$R[\eps]$ & $R(\{\eps(a) : a \in \Z/N\Z\})$ & \pageref{defn:keps}\\ $\sS_k(N,\eps)$& module of cuspidal modular symbols & \pageref{defn:cuspidalmodularsymbols}\\ $T_n$ & $n$th Hecke operator & \pageref{subsec:heckeonmanin}\\ $V_k$ & module of homogeneous polynomials of degree~$k$ & \pageref{defn:vk}\\ $W_d$ & $d$th Atkin-Lehner involution & \pageref{sec:atkin-lehner}\\ $\alp_t$, $\beta_t$ & degeneracy maps & \pageref{pg:degeneracymaps}\\ $\Theta_f$ & rational period mapping & \pageref{sec:ratperiod}\\ $\sigma$, $\tau$ & $\sigma=\abcd{0}{-1}{1}{\hfill 0}$, $\tau=\abcd{0}{-1}{1}{-1}$ & \pageref{defn:sigmatau}\\ $\Phi_f$ & analytic period mapping & \pageref{defn:periodmapping}\\ $\Phi_{A,p}$ & component group of~$A$ at~$p$ & \pageref{defn:componentgroup}\\ $\Omega_A$ & real volume & \pageref{defn:omega}\\ $\langle \,\, , \, \rangle$ & integration pairing & \pageref{thm:perfectpairing}\\ $*$ & star involution & \pageref{sec:starinvolution}\\ \end{tabular}