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\documentstyle[11pt,reduce]{article} \title{CVIT - Program for fast calculation of Dirac's $\gamma$-matrices traces} \date{(Version: 1.2. Release: March, 11, 1990)} \author{V. Ilyin, A. Kryukov, A. Rodionov and A. Taranov \\ Institute for Nuclear Physics \\ Moscow State University \\ Moscow, 119899 USSR \\ Phone 939-58-92 \\ Telex 411483 MGU SU \\ Fax (011)7095-939-01-26} \begin{document} \maketitle \section*{Abstract} In modern high energy physics the calculation of Feynman diagrams are still very important. One of the difficulties of these calculations are trace calculations. So the calculation of traces of Dirac's $\gamma$-matrices were one of first task of computer algebra systems. All available algorithms are based on the fact that gamma-matrices constitute a basis of a Clifford algebra: \begin{verbatim} {Gm,Gn} = 2gmn. \end{verbatim} We present the implementation of an alternative algorithm based on treating of gamma-matrices as 3-j symbols (details may be found in [1,2]). The program consists of 5 modules described below. \newpage \begin{verbatim} MODULES CROSS REFERENCES +--------+ | REDUCE | |________| |ISIMP1 ISIMP2| +-----------------------+ +--->-----| RED_TO_CVIT_INTERFACE | |_______________________| CALC_SPUR| |REPLACE_BY_VECTOR | |REPLACE_BY_VECTORP | |GAMMA5P ^ V +--------------+ | CVITMAPPING | |______________| ^ |PRE-CALC-MAP |CALC_MAP_TAR |CALC_DENTAR | +-------------+ | INTERFIERZ | |_____________| | |MK-NUMR | |STRAND-ALG-TOP | ^ MAP-TO-STRAND| +------------+ INCIDENT1| | EVAL-MAPS | | |____________| ^ |DELETEZ1 | |CONTRACT-STRAND +----------------+ |COLOR-STRAND | MAP-TO-STRAND |---->---+ |________________| Requires of REDUCE version: 3.2, 3.3. \end{verbatim} \section*{Module RED\_TO\_CVIT\_INTERFACE} \begin{center} Author: A.P.Kryukov \\ Purpose:interface REDUCE and CVIT package \end{center} RED\_TO\_CVIT\_INTERFACE module is intended for connection of REDUCE with main module of CVIT package. The main idea is to preserve standard REDUCE syntax for high energy calculations. For realization of this we redefine {\ SYMBOLIC PROCEDURE ISIMP1} from HEPhys module of REDUCE system. After loading CVIT package user may use switch CVIT which is {\tt ON} by default. If switch CVIT is {\tt OFF} then calculations of Diracs matrices traces are performed using standard REDUCE facilities. If CVIT switch is {\tt ON} then CVIT package will be active. {\tt RED\_TO\_CVIT\_INTERFACE} module performs some primitive simplification and control input data independently. For example it remove $G_mG_m$, check parity of the number of Dirac matrices in each trace {\em etc}. There is one principal restriction concerning G5-matrix. There are no closed form for trace in non-integer dimension case when trace include G5-matrix. The next restriction is that if the space-time dimension is integer then it must be even (2,4,6,...). If these and other restrictions are violated then the user get corresponding error message. List of messages is included. \begin{center} \begin{verbatim} LIST OF IMPORTED FUNCTIONS ------------------------------------------------- Function From module ------------------------------------------------- ISIMP2 HEPhys CALC_SPUR CVITMAPPING ------------------------------------------------- \end{verbatim} \begin{verbatim} LIST OF EXPORTED FUNCTION ------------------------------------------------- Function To module ------------------------------------------------- ISIMP1 HEPhys (redefine) REPLACE_BY_VECTOR EVAL_MAP REPLACE_BY_VECTORP EVAL__MAP GAMMA5P CVITMAPPING, EVAL_MAP ------------------------------------------------- \end{verbatim} \end{center} \section*{Module CVITMAPPING} \begin{center} Author: A.Ya.Rodionov \\ Purpose: graphs reduction \end{center} CVITMAPPING module is intended for diagrams calculation according to Cvitanovic - Kennedy algorithm. The top function of this module CALC\_SPUR is called from RED\_TO\_CVIT\_INTERFACE interface module. The main idea of the algorithm consists in diagram simplification according to rules (1.9') and (1.14) from [1]. The input data - trace of Diracs gamma matrices (G-matrices) has a form of a list of identifiers lists with cyclic order. Some of identifiers may be identical. In this case we assume summation over dummy indices. So trace Sp(GbGr).Sp(GwGbGcGwGcGr) is represented as list ((b r) (w b c w c r)). The first step is to transform the input data to ``map'' structure and then to reduce the map to a ``simple'' one. This transformation is made by function TRANSFORM\_MAP\_ (top function). Transformation is made in three steps. At the first step the input data are transformed to the internal form - a map (by function PREPARE\_MAP\_). At the second step a map is subjected to Fierz transformations (1.14) (function MK\_SIMPLE\_MAP\_). At this step of optimization can be maid (if switch CVITOP is on) by function MK\_FIRZ\_OP. In this case Fierzing starts with linked vertices with minimal distance (number of vertices) between them. After Fierz transformations map is further reduced by vertex simplification routine MK\_SIMPLE\_VERTEX using (1.9'). Vertices reduced to primitive ones, that is to vertices with three or less edges. This is the last (third) step in transformation from input to internal data. The next step is optional. If switch CVITBTR is on factorisation of bubble (function FIND\_BUBBLES1) and triangle (function FIND\_TRIANGLES1) submaps is made. This factorisation is very efficient for ``wheel'' diagrams and unnecessary for ``lattice'' diagrams. Factorisation is made recursively by substituting composed edges for bubbles and composed vertices for triangles. So check (function SORT\_ATLAS) must be done to test possibility of future marking procedure. If the check fails then a new attempt to reorganize atlas (so we call complicated structure witch consists of MAP, COEFFicient and DENOMinator) is made. This cause backtracking (but very seldom). Backtracking can be traced by turning on switch CVITRACE. FIND\_BUBLTR is the top function of this program's branch. Then atlases must be prepared (top function WORLD\_FROM\_ATLAS) for final algebraic calculations. The resulted object called ``world'' consists of edges names list (EDGELIST), their marking variants (VARIANTS) and WORLD1 structure. WORLD1 structure differs from WORLD structure in one point. It contains MAP2 structure instead of MAP structure. MAP2 is very complicated structure and consist of VARIANTS, marking plan and GSTRAND. (GSTRAND constructed by PRE!-CALC!-MAP\_ from INTERFIERZ module.) By marking we understand marking of edges with numbers according to Cvitanovic - Kennedy algorithm. The last step is performed by function CALC\_WORLD. At this step algebraic calculations are done. Two functions CALC\_MAP\_TAR and CALC\_DENTAR from INTERFIERZ module make algebraic expressions in the prefix form. This expressions are further simplified by function {\tt REVAL}. This is the REDUCE system general function for algebraic expressions simplification. {\tt REVAL} and {\tt SIMP!*} are the only REDUCE functions used in this module. There are also some functions for printing several internal structures: PRINT\_ATLAS, PRINT\_VERTEX, PRINT\_EDGE, PRINT\_COEFF, PRINT\_DENOM. This functions can be used for debugging. If an error occur in module CVITMAPPING the error message ``ERROR IN MAP CREATING ROUTINES'' is displayed. Error has number 55. The switch CVITERROR allows to give full information about error: name of function where error occurs and names and values of function's arguments. If CVITERROR switch is on and backtracking fails message about error in SORT\_ATLAS function is printed. The result of computation however will be correct because in this case factorized structure is not used. This happens extremely seldom. \begin{verbatim} List of imported function ------------------------------------------------- function from module ------------------------------------------------- REVAL REDUCE SIMP!* REDUCE CALC_MAP_TAR INTERFIERZ CALC_DENTAR INTERFIERZ PRE!-CALC!-MAP_ INTERFIERZ GAMMA5P RED_TO_CVIT_INTERFACE ------------------------------------------------- \end{verbatim} \begin{verbatim} List of exported function ------------------------------------------------- function to module ------------------------------------------------- CALC_SPUR REDUCE - CVIT interface ------------------------------------------------- \end{verbatim} \begin{verbatim} Data structure WORLD ::= (EDGELIST,VARIANTS,WORLD1) WORLD1 ::= (MAP2,COEFF,DENOM) MAP2 ::= (MAPS,VARIANTS,PLAN) MAPS ::= (EDGEPAIR . GSTRAND) MAP1 ::= (EDGEPAIR . MAP) MAP ::= list of VERTICES (unordered) EDGEPAIR ::= (OLDEDGELIST . NEWEDGELIST) COEFF ::= list of WORLDS (unordered) ATLAS ::= (MAP,COEFF,DENOM) GSTRAND ::= (STRAND*,MAP,TADPOLES,DELTAS) VERTEX ::= list of EDGEs (with cyclic order) EDGE ::= (NAME,PROPERTY,TYPE) NAME ::= ATOM PROPERTY ::= (FIRSTPAIR . SECONDPAIR) TYPE ::= T or NIL ------------------------------------------------ *Define in module MAP!-TO!-STRAND. \end{verbatim} \section*{Modules INTERFIERZ, EVAL\_MAPS, AND MAP-TO-STRAND.} \begin{center} Author: A.Taranov \\ Purpose: evaluate single Map \end{center} Module INTERFIERZ exports to module CVITMAPPING three functions: PRE-CALC-MAP\_, CALC-MAP\_TAR, CALC-DENTAR. Function PRE-CALC-MAP\_ is used for preliminary processing of a map. It returns a list of the form (STRAND NEWMAP TADEPOLES DELTAS) where STRAND is strand structure described in MAP-TO-STRAND module. NEWMAP is a map structure without ``tadepoles'' and ``deltas''. ``Tadepole'' is a loop connected with map with only one line (edge). ``Delta'' is a single line disconnected from a map. TADEPOLES is a list of ``tadepole'' submaps. DELTAS is a list (CONS E1 E2) where E1 and E2 are Function CALC\_MAP\_TAR takes a list of the same form as returned by PRE-CALC-MAP\_, a-list, of the form (... edge . weight ... ) and returns a prefix form of algebraic expression corresponding to the map numerator. Function CALC-DENTAR returns a prefix form of algebraic expression corresponding to the map denominator. Module EVAL-MAP exports to module INTERFIERZ functions MK-NUMR and STRAND-ALG-TOP. Function MK-NUMR returns a prefix form for some combinatorial coefficient (Pohgammer symbol). Function STRAND-ALG-TOP performs an actual computation of a prefix form of algebraic expression corresponding to the map numerator. This computation is based on a ``strand'' structure constructed from the ``map'' structure. Module MAP-TO-STRAND exports functions MAP-TO-STRAND, INCIDENT1 to module INTERFIERZ and functions DELETEZ1, CONTRACT-STRAND, COLOR-STRAND to module EVAL-MAPS. Function INCIDENT1 is a selector in ``strand'' structure. DELETEZ1 performs auxiliary optimization of ``strand''. MAP-TO-STRAND transforms ``map'' to ``strand'' structure. The latter is describe in program module. CONTRACT-STRAND do strand vertex simplifications of ``strand'' and COLOR-STRAND finishes strand generation. \begin{verbatim} Description of STRAND data structure. STRAND ::=<LIST OF VERTEX> VERTEX ::=<NAME> . (<LIST OF ROAD> <LIST OF ROAD>) ROAD ::=<ID> . NUMBER NAME ::=NUMBER \end{verbatim} \subsection*{ LIST OF MESSAGES} \begin{itemize} \item{CALC\_SPUR: $<$vecdim$>$ IS NOT EVEN SPACE-TIME DIMENSION} The dimension of space-time $<$vecdim$ $is integer but not even. Only even numeric dimensions are allowed. \item{NOSPUR NOT YET IMPLEMENTED} Attempt to calculate trace when NOSPUR switch is on. This facility is not implemented now. \item{G5 INVALID FOR VECDIM NEQ 4} Attempt to calculate trace with gamma5-matrix for space-time dimension not equal to 4. \item{CALC\_SPUR: $<$expr$>$ HAS NON-UNIT DENOMINATOR} The <expr> has non-unit denominator. \item{THREE INDICES HAVE NAME $<$name$>$} There are three indices with equal names in evaluated expression. \end{itemize} \begin{verbatim} List of switches ------------------------------------------------------------ switch default comment ------------------------------------------------------------ CVIT ON If it is on then use Kennedy- Cvitanovic algorithm else use standard facilities. CVITOP OFF Fierz optimization switch CVITBTR ON Bubbles and triangles factorisation switch CVITRACE OFF Backtracking tracing switch ------------------------------------------------------------ \end{verbatim} \begin{verbatim} Functions cross references*. CALC_SPUR | +-->SIMP!* (REDUCE) | +-->CALC_SPUR0 | |--->TRANSFORM_MAP_ | | | |--->MK_SIMPLE_VERTEX | +--->MK_SIMPLE_MAP_ | | | +--->MK_SIMPLE_MAP_1 | | | +--->MK_FIERS_OP | |--->WORLD_FROM_ATLAS | | | +--->CONSTR_WORLDS | | | +---->MK_WORLD1 | | | +--->MAP_2_FROM_MAP_1 | | | |--->MARK_EDGES | +--->MAP_1_TO_STRAND | | | +-->PRE!-CALC!-MAP_ | (INTERFIRZ) | |--->CALC_WORLD | | | |--->CALC!-MAP_TAR (INTERFIRZ) | |--->CALC!-DENTAR (INTERFIRZ) | +--->REVAL (REDUCE) | +--->FIND_BUBLTR | +--->FIND_BUBLTR0 | |--->SORT_ATLAS +--->FIND_BUBLTR1 | |--->FIND_BUBLES1 +--->FIND_TRIANGLES1 *Unmarked functions are from CVITMPPING module. \end{verbatim} \section*{References} \begin{itemize} \item{1.} Ilyin V.A., Kryukov A.P., Rodionov A.Ya., Taranov A.Yu. Fast algorithm for calculation of Diracs gamma-matrices traces. SIGSAM Bull., 1989, v.23, no.4, pp.15-24. \item{2.} Kennedy A.D. Phys.Rev., 1982, D26, p.1936. \end{itemize} \section*{Keywords} REDUCE, GAMMA-MATRIX, TRACE, SPACE-TIME DIMENSION, HIGH ENERGY PHYSICS. \end{document}