Dubna1mHBC hep13

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Ožiarenie 1m HBC zväzkami jadier 3He pri hybnosti zväzku 13,5 GeV/c

 DODAT POPIS STUKTURY DST PRE FULL A MINI FORMAT



Expozície číslo: 45, 48 hybnosť zväzku 3He 13,5 GeV/c.Formaty DST plný (FULL) format a MINI format.

Vysvetlenie rozdielu medzi hypotezou a kanalom reakcie

Hypoteza pod danym cislom, ako je uvedena v zozname, moze zahrnut — v dosledku zakona zachovania elektrickeho naboja a baryonoveho cisla — niekolko kanalov reakcie :

  1. kanal bez neutralnej castice (4C-, 3C-, 2C-fit)
  2. kanal s 1 (jednou) neutralnou casticou (1C-fit)
  3. kanal s 2 (dvoma) a viac neutralnymi casticami (0C-fit tiez nazyvany ako NOFIT).

Plný format (FULL) binárny file

Tabuľka expozicií
File Počet prípadov Expozícia
he3all.dvo 14067 45, 48
he3.dvo 23214 45, 48
Total 37281 all


Štruktúra zápisu

  • Nbytes, Nwords, b[0], b[1], …, b[Nwords-1], Nbytes,

kde

  • Nbytes je štvorbyteový integer a Nbytes = 4 * (Nwords + 1) dlžka zápisu v štvorbyteových slovách, samotné slová Nbytes sa do dl´žky nezapočítavajú,
  • Nwords je štvorbyteový integer a vyjadruje dlžku poľa
  • b[0], b[1], … b[Nwords-1], samotné slovo Nwords sa do dl´žky nezapočítavá,
  • b[0], b[1], … b[Nwords-1] sú štvorbyteový integer alebo float,

** b[0], b[1] sú integer (pre lab Dubna, ostatné float) ** b[2], … b[Nwords-1] sú float

Čítanie: read Nbytes, Nwords ; read b[0], b[1], …, b[Nwords-1] ; read Nbytes

Podrobný popis štruktúry neskoršie.
Dĺžka hlavičky = 28; [0], …, [27]. Začiatok oblasti dráh = pri [29], length = 20/track, počet dráh = (SCANTOP/100 + 2), posledne slovo je dlzka drahy.

Výsledky

Intervaly hmoty castic [GeV]
Bin low edge Bin upper edge Bin content Comment
-0.14 0 10462.5 π-
0 0.134 18 ?
0.134 0.139 2341 π0
0.139 0.145 28479.5 π+
0.145 0.938 2 ?
0.938 0.939 70253 p
0.939 1.87563 6743 n
1.87563 2.8083 14231.5 d
2.8083 2.8087 41381 3He (beam+sec)
2.8087 3.72741 749.5 t
3.72741 3.8 190 4He  ??


Vylepšenia (voči 4Hep 8.6 GeV/c):

  • Hmotnosť pi- mezónu je ZÁPORNÁ
  • NOFIT ND je nulový
  • NOFIT prob je nenulová iba pre LAB=2
  • LAB = 1, 2, 3, 4, 5, 6
  • vertex VX, VY, VZ OK
  • prve dve slova su realne (float) obsahuju ROLL*10+meas/order, FRAME*10+order/meas, neviem si zistit kde je meas a kde order


Niektoré anomálie:

  • Oblasť dráh obsahuje 20 slov/dráhu, posledné slovo je dĺžka dráhy (u primárky sa dobre identifikuje je záporné a má niekoľko desiatok cm). Slovo 19 a 20 asi budu DELTA SQ. FROM BEAM, DELTA SQ. FROM TARGET.
  • Ak sú dve hypotézy, tak aj medzi nimi idú nuly. Za poslednou hypo tento chvost neide. Vzdialenosť medzi oblastmi dráh (ak sú 2 hypo) je nasledovna:
//               ?  ?  2pr  3pr  4pr  5pr  6pr  7pr 
 int DELTA[] = { 0, 0, 100, 120, 160, 210, 270, 360};


  • POUŽíVAŤ iba váhu prípadu [9] a počet hypo [8], kde striktne plati [9] = 1/[8], vahy u hypotez [18] a [27] su nepochopitelne
  • FITNOFIT flag je OK, na testovanie POUŽíVAŤ výhradne FITNOFIT flag
  • NOFIT cisla hypo > 100.5 (malo by byt zaporne)
  • Prekrytie filmov

Exp 45 cisla filmov FULL DST 

 1   2   3   4   5   6   7   8   9  10
11  12      14  15  16  17  18  19  20 
21  22  23  24  25  26  27  28  29  30
                    36  37  38
            44  45  46  47  48  49
51  52  53  54  55  56  57      59  60
61  62  63  64  65  66  67  68  69  70
71  72  73  74  75  76  77  78  79  80
81


Exp 48 cisla filmov FULL DST 

31   32   33   34    35    37  38
                          187 188
                              308
                    355  357  358  359  360 
361  362  363  364  365  366  367  368  369  370
371  372  373  374  375  376  377       379  
          383       385  386  387  388  389  390
391       393  394  395  396  397  398  399  400
401  402  403  404  405  406  407  
411  412       414  415       417  418       420
     422  423  424  425  426  427  428  429  430



Prekrytie : rolls 37, 38 su pritomne v oboch 3Hep expoziciach 45 a 48 . Co s nimi ? Eventy z preryvajucich sa filmov 37 a 38 ponechame pretoze:


Pocty pripadov na filmoch expozicie 45 a 48 po Lab
Roll
Lab
 36 37 38 39
2 325 232 176 0
5 0 0 200 0
6 0 64 0 0
Pocty pripadov na filmoch expozicie 45 a 48 po exp
Roll
Exp
 36 37 38
45 325 232 176
48 0 64 200
Pocty pripadov na filmoch expozicie 45 a 48 po FIT flag
Roll
FIT Flag
 36 37 38
-1 169 141 212
0 3 3 5
+1 153 152 159
Pocty pripadov na filmoch expozicie 45 po FIT flag
Roll
FIT Flag
 36 37 38
-1 169 108 74
0 3 2 2
+1 153 122 100
Pocty pripadov na filmoch expozicie 48 po FIT flag
Roll
FIT Flag
 none 37 38
-1 no 33 138
0 no 1 3
+1 no 30 59 
boli spracovane v roznych laboratoriach a hlavne kontrola dubletov podla VX, VY, VZ ukazuje, ze ide o rozne eventy. (/var/home/jurban/tanulas_root/ReadDST/HE3P/FULL/compare3738.C , E45R37_38.dvo  E48R37_38.dvo )



Filmy 36, 37, 38  3Hep  exp 45 a dp  exp 59 sa prekryvaju.    Grind checking tychto expozicii uz 12.10.1982 bol rozbehnuty, Pokyny od G.D. Pestovej. Exp 59 bola robena 1985. july 15 - 23, takze  filmy sa nijak premiesat nemohli okrem toho 3He a d beam sa vizualne krasne da odlisit .Nechapem ako vznikol problem, ale mozem zalezitost povazovat za bezpredmetnu.

Redukovaný format (MINI, MIKRO) binárny file

Redukovaný formát štatistika
File Number of events Exposition
he2prong.dvo 4085 45, 48
he3prong.dvo 23213 45, 48
he4prong.dvo 215 45, 48
he5prong.dvo 9275 45, 48
he6prong.dvo 3 45, 48
he7prong.dvo 492 45, 48
Total 37283 all


Štruktúra zápisu

  • Nbytes, Nwords, b[0], b[1], …, b[Nwords-1], Nbytes,

kde

  • Nbytes je štvorbyteový integer a Nbytes = 4 * (Nwords + 1) dlžka zápisu v štvorbyteových slovách, samotné slová Nbytes sa do dl´žky nezapočítavajú,
  • Nwords je štvorbyteový integer a vyjadruje dlžku poľa, b[0], b[1], … b[Nwords-1], samotné slovo Nwords sa do dl´žky nezapočítavá,
  • b[0], b[1] sú integer (pre lab Dubna, pre ostatne float )
  • b[2], … b[Nwords-1] sú float

Čítanie: read Nbytes, Nwords ; read b[0], b[1], …, b[Nwords-1] ; read Nbytes

Podrobný popis štruktúry neskoršie. Začiatok oblasti dráh = @ 5, length = 6/track, scanning topology nie je na DST, počet dráh sa dá určiť takto: (Nwords – dĺžkahlavičky)/length/počethypotéz.

Výsledky

Vylepsenia

  • [math]\displaystyle{ \pi^- }[/math] mass < 0, OK
  • NOFIT hyp number < -100.5, OK
  • beam PY=0, PZ=0, OK
Intervaly hmoty castic [GeV]
Bin low edge Bin upper edge Bin content Comment
-0.14 0 10466 π-
0 0.134 0 ?
0.134 0.139 2384 π0
0.139 0.145 28489.5 π+
0.145 0.938 0 ?
0.938 0.939 70266 p
0.939 1.87563 7062 n
1.87563 2.8083 14231 d
2.8083 2.8087 4113 3He (sec only)
2.8087 3.72741 750 t
3.72741 3.8 190 4He  ??

Grind checking kriteria [math]\displaystyle{ ^{3}Hep }[/math] pri 13.5 GeV/c

  1. Pravdepodobnost P:
    • 1C fit hypotez P > 0.05
    • 2C fit hypotez P > 0.02
    • 3C fit hypotez P > 0.005
    • 4C fit hypotez P > 0.001
  2. Moduly laboratornych hybnosti p sekundarnych castic v 1C fit hypotezach:
    • [math]\displaystyle{ nabite \hspace{0.2cm} \pi \hspace{0.2cm} mezony \hspace{0.2cm} p_{\pi} \lt 3.0 GeV/c }[/math]
    • [math]\displaystyle{ proton, neutron \hspace{0.2cm} p_{p,n} \lt 8.0 GeV/c }[/math]
    • [math]\displaystyle{ deuteron \hspace{0.2cm} 1.0 \lt p_{d} \lt 12.5 GeV/c }[/math]
    • [math]\displaystyle{ triton \hspace{0.2cm} p_{t} \gt 11.0 GeV/c }[/math]
    • [math]\displaystyle{ ^{3}He \hspace{0.2cm} p_{^{3}He} \gt 11.0 GeV/c }[/math]
  3. Kvadrat chybajucej hmotnosti pre 1C fit hypotez [math]\displaystyle{ MM^{2} }[/math]:
    • s [math]\displaystyle{ \pi^{0} mezonom -0.2 \lt MM^{2}_{\pi^{0}} \lt 0.16 GeV^{2} }[/math]
    • s [math]\displaystyle{ neutronom \hspace{0.2cm} 0.4 \lt MM^{2}_{n} \lt 1.2 GeV^{2} }[/math]


  • Pre FULL DST mozno pouzit vsetky 3 kriteria, ktore pre bezne analyzy stacia.
  • MINI DST umoznuje pouzit kriterium 2. Chybajuca hmotnost sa da dopocitat.
  • Poznamka: V kriteriach od GD Pestovej obmedzenia na chybajucu hmotnost v NOFIT hypotezach nie su uvedene. Ich hranicne hodnoty su rovnake ako v pripade [math]\displaystyle{ ^{4}He }[/math] expozicii.


Navrh kodovania vystupnych kanalov reakcii iba pre exp. 45 & 48

  • Pre kanaly bez neutralnej alebo s jednou neutralnou casticou :
    • Pocet nabitych sekundarnych castic * 1000 + pocet neutralnych castic *100 + poradove cislo vystupneho kanalu ako je to v popise struktury DST.
  • Pre kanaly obsahujuce dve a viac neutralnych castic : –(Pocet nabitych sekundarnych castic * 1000 + pocet neutralnych castic *100 + poradove cislo vystupneho kanalu), ako je to v popise struktury DST.Pre tieto kanaly neutralny system oznacujeme [math]\displaystyle{ X^{0} }[/math] a podla zakona zachovania baryonoveho cisla a energie reakcie moze obsahovat bud :
    • dva a viac [math]\displaystyle{ \pi^{0} }[/math] alebo
    • neutron a niekolko [math]\displaystyle{ \pi^{0} }[/math] alebo
    • dva neutrony alebo
    • dva neutrony a niekolko [math]\displaystyle{ \pi^{0} }[/math] alebo
    • tri neutrony alebo
    • tri neutrony a niekolko [math]\displaystyle{ \pi^{0} }[/math].

Tabulka kanalov reakcie

Navrh kodovania hypotez pre expozicie 3Hep pri 13.5 GeV/c exp. 45 & 48
No neutral One neutral Two or more neutrals
Kanal reakcie Kod Kanal reakcie Kod Kanal reakcie [math]\displaystyle{ X^0 }[/math] Kod
[math]\displaystyle{ ^3Hep \rightarrow {^3He}p }[/math] 2001 [math]\displaystyle{ ^3Hep \rightarrow {^3He}p\pi^{0} }[/math] 2101 [math]\displaystyle{ ^3Hep \rightarrow {^3He}pX^{0} }[/math] [math]\displaystyle{ X^0=k\pi^0, k\ge2 }[/math] -2101
[math]\displaystyle{ ^3Hep \rightarrow {^4He}\pi^+ }[/math] 2002 [math]\displaystyle{ ^3Hep \rightarrow {^4He}\pi^+\pi^0 }[/math] 2102 [math]\displaystyle{ ^3Hep \rightarrow {^4He}\pi^+X^{0} }[/math] [math]\displaystyle{ X^0=k\pi^0, k\ge2 }[/math] -2102
[math]\displaystyle{ ^3Hep \rightarrow {^3He}\pi^+n }[/math] 2103 [math]\displaystyle{ ^3Hep \rightarrow {^3He}\pi^+X^{0} }[/math] [math]\displaystyle{ X^0=n+k\pi^0, k\ge1 }[/math] -2103
[math]\displaystyle{ ^3Hep \rightarrow dpp }[/math] 3001 [math]\displaystyle{ ^3Hep \rightarrow dpp\pi^{0} }[/math] 3101 [math]\displaystyle{ ^3Hep \rightarrow dppX^{0} }[/math] [math]\displaystyle{ X^0=k\pi^0, k\ge2 }[/math] -3101
[math]\displaystyle{ ^3Hep \rightarrow tp\pi^+ }[/math] 3002 [math]\displaystyle{ ^3Hep \rightarrow tp\pi^+\pi^{0} }[/math] 3102 [math]\displaystyle{ ^3Hep \rightarrow tp\pi^+X^{0} }[/math] [math]\displaystyle{ X^0=k\pi^0, k\ge2 }[/math] -3102
[math]\displaystyle{ ^3Hep \rightarrow dd\pi^+ }[/math] 3003 [math]\displaystyle{ ^3Hep \rightarrow dd\pi^+\pi^{0} }[/math] 3103 [math]\displaystyle{ ^3Hep \rightarrow dd\pi^+X^{0} }[/math] [math]\displaystyle{ X^0=k\pi^0, k\ge2 }[/math] -3103
[math]\displaystyle{ ^3Hep \rightarrow pppn }[/math] 3104 [math]\displaystyle{ ^3Hep \rightarrow pppX^{0} }[/math] [math]\displaystyle{ X^0=n+k\pi^0, k\ge1 }[/math] -3104
[math]\displaystyle{ ^3Hep \rightarrow dp\pi^+n }[/math] 3105 [math]\displaystyle{ ^3Hep \rightarrow dp\pi^+X^{0} }[/math] [math]\displaystyle{ X^0=n+k\pi^0, k\ge1 }[/math] -3105
[math]\displaystyle{ ^3Hep \rightarrow t\pi^+\pi^+n }[/math] 3106 [math]\displaystyle{ ^3Hep \rightarrow t\pi^+\pi^+X^{0} }[/math] [math]\displaystyle{ X^0=n+k\pi^0, k\ge1 }[/math] -3106
[math]\displaystyle{ ^3Hep \rightarrow pp\pi^+X^{0} }[/math] [math]\displaystyle{ X^0=2n+k\pi^0, k\ge0 }[/math] -3107
[math]\displaystyle{ ^3Hep \rightarrow d\pi^+\pi^+X^{0} }[/math] [math]\displaystyle{ X^0=2n+k\pi^0, k\ge0 }[/math] -3108
[math]\displaystyle{ ^3Hep \rightarrow p\pi^+\pi^+X^{0} }[/math] [math]\displaystyle{ X^0=3n+k\pi^0, k\ge0 }[/math] -3109
[math]\displaystyle{ ^3Hep \rightarrow \pi^+\pi^+\pi^+X^{0} }[/math] [math]\displaystyle{ X^0=4n+k\pi^0, k\ge0 }[/math] -3110
[math]\displaystyle{ ^3Hep \rightarrow {^3He}p\pi^+\pi^- }[/math] 4001 [math]\displaystyle{ ^3Hep \rightarrow {^3He}p\pi^+\pi^-\pi^{0} }[/math] 4101 [math]\displaystyle{ ^3Hep \rightarrow {^3He}p\pi^+\pi^-X^{0} }[/math] [math]\displaystyle{ X^0=k\pi^0, k\ge2 }[/math] -4101
[math]\displaystyle{ ^3Hep \rightarrow {^4He}\pi^+\pi^+\pi^- }[/math] 4002 [math]\displaystyle{ ^3Hep \rightarrow {^4He}\pi^+\pi^+\pi^-\pi^{0} }[/math] 4102 [math]\displaystyle{ ^3Hep \rightarrow {^4He}\pi^+\pi^+\pi^-X^{0} }[/math] [math]\displaystyle{ X^0=k\pi^0, k\ge2 }[/math] -4102
[math]\displaystyle{ ^3Hep \rightarrow {^3He}\pi^+\pi^+\pi^-n }[/math] 4103 [math]\displaystyle{ ^3Hep \rightarrow {^3He}\pi^+\pi^+\pi^-X^{0} }[/math] [math]\displaystyle{ X^0=n+k\pi^0, k\ge1 }[/math] -4103
[math]\displaystyle{ ^3Hep \rightarrow pppp\pi^- }[/math] 5001 [math]\displaystyle{ ^3Hep \rightarrow pppp\pi^-\pi^{0} }[/math] 5101 [math]\displaystyle{ ^3Hep \rightarrow pppp\pi^-X^{0} }[/math] [math]\displaystyle{ X^0=k\pi^0, k\ge2 }[/math] -5101
[math]\displaystyle{ ^3Hep \rightarrow dpp\pi^+\pi^- }[/math] 5002 [math]\displaystyle{ ^3Hep \rightarrow dpp\pi^+\pi^-\pi^{0} }[/math] 5102 [math]\displaystyle{ ^3Hep \rightarrow dpp\pi^+\pi^-X^{0} }[/math] [math]\displaystyle{ X^0=k\pi^0, k\ge2 }[/math] -5102
[math]\displaystyle{ ^3Hep \rightarrow tp\pi^+\pi^+\pi^- }[/math] 5003 [math]\displaystyle{ ^3Hep \rightarrow tp\pi^+\pi^+\pi^-\pi^{0} }[/math] 5103 [math]\displaystyle{ ^3Hep \rightarrow tp\pi^+\pi^+\pi^-X^{0} }[/math] [math]\displaystyle{ X^0=k\pi^0, k\ge2 }[/math] -5103
[math]\displaystyle{ ^3Hep \rightarrow dd\pi^+\pi^+\pi^- }[/math] 5004 [math]\displaystyle{ ^3Hep \rightarrow dd\pi^+\pi^+\pi^-\pi^{0} }[/math] 5104 [math]\displaystyle{ ^3Hep \rightarrow dd\pi^+\pi^+\pi^-X^{0} }[/math] [math]\displaystyle{ X^0=k\pi^0, k\ge2 }[/math] -5104
[math]\displaystyle{ ^3Hep \rightarrow ppp\pi^+\pi^-n }[/math] 5105 [math]\displaystyle{ ^3Hep \rightarrow ppp\pi^+\pi^-X^{0} }[/math] [math]\displaystyle{ X^0=n+k\pi^0, k\ge1 }[/math] -5105
[math]\displaystyle{ ^3Hep \rightarrow dp\pi^+\pi^+\pi^-n }[/math] 5106 [math]\displaystyle{ ^3Hep \rightarrow dp\pi^+\pi^+\pi^-X^{0} }[/math] [math]\displaystyle{ X^0=n+k\pi^0, k\ge1 }[/math] -5106
[math]\displaystyle{ ^3Hep \rightarrow t\pi^+\pi^+\pi^+\pi^-n }[/math] 5107 [math]\displaystyle{ ^3Hep \rightarrow t\pi^+\pi^+\pi^+\pi^-X^{0} }[/math] [math]\displaystyle{ X^0=n+k\pi^0, k\ge1 }[/math] -5107
[math]\displaystyle{ ^3Hep \rightarrow pp\pi^+\pi^+\pi^-X^{0} }[/math] [math]\displaystyle{ X^0=2n+k\pi^0, k\ge0 }[/math] -5108
[math]\displaystyle{ ^3Hep \rightarrow d\pi^+\pi^+\pi^+\pi^-X^{0} }[/math] [math]\displaystyle{ X^0=2n+k\pi^0, k\ge0 }[/math] -5109
[math]\displaystyle{ ^3Hep \rightarrow p\pi^+\pi^+\pi^+\pi^-X^{0} }[/math] [math]\displaystyle{ X^0=3n+k\pi^0, k\ge0 }[/math] -5110
[math]\displaystyle{ ^3Hep \rightarrow \pi^+\pi^+\pi^+\pi^+\pi^-X^{0} }[/math] [math]\displaystyle{ X^0=4n+k\pi^0, k\ge0 }[/math] -5111
[math]\displaystyle{ ^3Hep \rightarrow {^3He}p\pi^+\pi^+\pi^-\pi^- }[/math] 6001 [math]\displaystyle{ ^3Hep \rightarrow {^3He}p\pi^+\pi^+\pi^-\pi^-\pi^{0} }[/math] 6101 [math]\displaystyle{ ^3Hep \rightarrow {^3He}p\pi^+\pi^+\pi^-\pi^-X^{0} }[/math] [math]\displaystyle{ X^0=k\pi^0, k\ge2 }[/math] -6101
[math]\displaystyle{ ^3Hep \rightarrow {^3He}\pi^+\pi^+\pi^+\pi^-\pi^-n }[/math] 6102 [math]\displaystyle{ ^3Hep \rightarrow {^3He}\pi^+\pi^+\pi^+\pi^-\pi^-X^{0} }[/math] [math]\displaystyle{ X^0=n+k\pi^0, k\ge1 }[/math] -6102
[math]\displaystyle{ ^3Hep \rightarrow pppp\pi^+\pi^-\pi^- }[/math] 7001 [math]\displaystyle{ ^3Hep \rightarrow pppp\pi^+\pi^-\pi^-\pi^{0} }[/math] 7101 [math]\displaystyle{ ^3Hep \rightarrow pppp\pi^+\pi^-\pi^-X^{0} }[/math] [math]\displaystyle{ X^0=k\pi^0, k\ge2 }[/math] -7101
[math]\displaystyle{ ^3Hep \rightarrow dpp\pi^+\pi^+\pi^-\pi^- }[/math] 7002 [math]\displaystyle{ ^3Hep \rightarrow dpp\pi^+\pi^+\pi^-\pi^-\pi^{0} }[/math] 7102 [math]\displaystyle{ ^3Hep \rightarrow dpp\pi^+\pi^+\pi^-\pi^-X^{0} }[/math] [math]\displaystyle{ X^0=k\pi^0, k\ge2 }[/math] -7102
[math]\displaystyle{ ^3Hep \rightarrow tp\pi^+\pi^+\pi^+\pi^-\pi^- }[/math] 7003 [math]\displaystyle{ ^3Hep \rightarrow tp\pi^+\pi^+\pi^+\pi^-\pi^{0} }[/math] 7103 [math]\displaystyle{ ^3Hep \rightarrow tp\pi^+\pi^+\pi^+\pi^-\pi^-X^{0} }[/math] [math]\displaystyle{ X^0=k\pi^0, k\ge2 }[/math] -7103
[math]\displaystyle{ ^3Hep \rightarrow ppp\pi^+\pi^+\pi^-\pi^-n }[/math] 7104 [math]\displaystyle{ ^3Hep \rightarrow ppp\pi^+\pi^+\pi^-\pi^-X^{0} }[/math] [math]\displaystyle{ X^0=n+k\pi^0, k\ge1 }[/math] -7104
[math]\displaystyle{ ^3Hep \rightarrow dp\pi^+\pi^+\pi^+\pi^-\pi^-n }[/math] 7105 [math]\displaystyle{ ^3Hep \rightarrow dp\pi^+\pi^+\pi^+\pi^-\pi^-X^{0} }[/math] [math]\displaystyle{ X^0=n+k\pi^0, k\ge1 }[/math] -7105
[math]\displaystyle{ ^3Hep \rightarrow pp\pi^+\pi^+\pi^+\pi^-\pi^-X^{0} }[/math] [math]\displaystyle{ X^0=2n+k\pi^0, k\ge0 }[/math] -7106

Prechod ku kodom [math]\displaystyle{ ^{3}Hep }[/math] pri 13.5 GeV/c MINI format

2 prongs
NHYP KOD Kanal reakcie
1 ≤ NHYP ≤ 2 2001 [math]\displaystyle{ ^3Hep \rightarrow {^3He}p }[/math]
101 ≤ NHYP ≤ 102 2101 [math]\displaystyle{ ^3Hep \rightarrow {^3He}p\pi^{0} }[/math]
-102 ≤ NHYP ≤ -101 -2101 [math]\displaystyle{ ^3Hep \rightarrow {^4He}pX^{0} }[/math] [math]\displaystyle{ X^0=k\pi^0, k\ge2 }[/math]
5 ≤ NHYP ≤ 6 2002 [math]\displaystyle{ ^3Hep \rightarrow {^4He}\pi^+ }[/math]
105 ≤ NHYP ≤ 106 2102 [math]\displaystyle{ ^3Hep \rightarrow {^4He}\pi^+\pi^0 }[/math]
-106 ≤ NHYP ≤ -105 -2102 [math]\displaystyle{ ^{3}Hep \rightarrow {^4He}\pi^+X^{0} }[/math] [math]\displaystyle{ X^0=k\pi^0, k\ge2 }[/math]
103 ≤ NHYP ≤ 104 2103 [math]\displaystyle{ ^3Hep \rightarrow {^3He}\pi^+n }[/math]
-104 ≤ NHYP ≤ -103 -2103 [math]\displaystyle{ ^3Hep \rightarrow {^3He}\pi^+X^{0} }[/math] [math]\displaystyle{ X^0=n+k\pi^0, k\ge1 }[/math]
3 prongs
NHYP KOD Kanal reakcie
1 ≤ NHYP ≤ 3 3001 [math]\displaystyle{ ^3Hep \rightarrow dpp }[/math]
101 ≤ NHYP ≤ 103 3101 [math]\displaystyle{ ^3Hep \rightarrow dpp\pi^0 }[/math]
-103 ≤ NHYP ≤ -101 -3101 [math]\displaystyle{ ^3Hep \rightarrow dppX^{0} }[/math] [math]\displaystyle{ X^0=k\pi^0, k\ge2 }[/math]
4 ≤ NHYP ≤ 9 3002 [math]\displaystyle{ ^3Hep \rightarrow tp\pi^+ }[/math]
104 ≤ NHYP ≤ 109 3102 [math]\displaystyle{ ^3Hep \rightarrow tp\pi^+\pi^{0} }[/math]
-109 ≤ NHYP ≤ -104 -3102 [math]\displaystyle{ ^3Hep \rightarrow tp\pi^+X^{0} }[/math] [math]\displaystyle{ X^0=k\pi^0, k\ge2 }[/math]
10 ≤ NHYP ≤ 12 3003 [math]\displaystyle{ ^3Hep \rightarrow dd\pi^+ }[/math]
110 ≤ NHYP ≤ 112 3103 [math]\displaystyle{ ^3Hep \rightarrow dd\pi^+\pi^{0} }[/math]
-112 ≤ NHYP ≤ -110 -3103 [math]\displaystyle{ ^3Hep \rightarrow dd\pi^+X^{0} }[/math] [math]\displaystyle{ X^0=k\pi^0, k\ge2 }[/math]
NHYP = 113 3104 [math]\displaystyle{ ^3Hep \rightarrow pppn }[/math]
NHYP = -113 -3104 [math]\displaystyle{ ^3Hep \rightarrow pppX^{0} }[/math] [math]\displaystyle{ X^0=n+k\pi^0, k\ge1 }[/math]
114 ≤ NHYP ≤ 119 3105 [math]\displaystyle{ ^3Hep \rightarrow dp\pi^+n }[/math]
-119 ≤ NHYP ≤ -114 -3105 [math]\displaystyle{ ^3Hep \rightarrow dp\pi^+X^{0} }[/math] [math]\displaystyle{ X^0=n+k\pi^0, k\ge1 }[/math]
120 ≤ NHYP ≤ 122 3106 [math]\displaystyle{ ^3Hep \rightarrow t\pi^+\pi^+n }[/math]
-122 ≤ NHYP ≤ -120 -3106 [math]\displaystyle{ ^3Hep \rightarrow t\pi^+\pi^+X^{0} }[/math] [math]\displaystyle{ X^0=n+k\pi^0, k\ge1 }[/math]
-125 ≤ NHYP ≤ -123 -3107 [math]\displaystyle{ ^3Hep \rightarrow pp\pi^+X^{0} }[/math] [math]\displaystyle{ X^0=2n+k\pi^0, k\ge0 }[/math]
-128 ≤ NHYP≤-126 -3108 [math]\displaystyle{ ^3Hep \rightarrow d\pi^+\pi^+X^{0} }[/math] [math]\displaystyle{ X^0=2n+k\pi^0, k\ge0 }[/math]
-129 ≤ NHYP≤-131 -3109 [math]\displaystyle{ ^3Hep \rightarrow p\pi^+\pi^+X^{0} }[/math] [math]\displaystyle{ X^0=3n+k\pi^0, k\ge0 }[/math]
NHYP = -132 -3110 [math]\displaystyle{ ^3Hep \rightarrow \pi^+\pi^+\pi^+X^{0} }[/math] [math]\displaystyle{ X^0=4n+k\pi^0, k\ge1 }[/math]


4 prongs
NHYP KOD Kanal reakcie
1 ≤ NHYP ≤ 6 4001 [math]\displaystyle{ ^3Hep \rightarrow {^3He}p\pi^+\pi^- }[/math]
101 ≤ NHYP ≤ 106 4101 [math]\displaystyle{ ^3Hep \rightarrow {^3He}p\pi^+\pi^-\pi^{0} }[/math]
-106 ≤ NHYP ≤ -101 -4101 [math]\displaystyle{ ^3Hep \rightarrow {^3He}p\pi^+\pi^-X^{0} }[/math] [math]\displaystyle{ X^0=k\pi^0, k\ge2 }[/math]
10≤ NHYP ≤ 12 4002 [math]\displaystyle{ ^3Hep \rightarrow {^4He}\pi^+\pi^+\pi^- }[/math]
110≤ NHYP ≤ 112 4102 [math]\displaystyle{ ^3Hep \rightarrow {^4He}\pi^+\pi^+\pi^-\pi^{0} }[/math]
-112≤ NHYP ≤ -110 -4102 [math]\displaystyle{ ^3Hep \rightarrow {^4He}\pi^+\pi^+\pi^-X^{0} }[/math] [math]\displaystyle{ X^0=k\pi^0, k\ge2 }[/math]
107≤ NHYP ≤ 109 4103 [math]\displaystyle{ ^3Hep \rightarrow {^3He}\pi^+\pi^+\pi^-n }[/math]
-109≤ NHYP ≤ -107 -4103 [math]\displaystyle{ ^3Hep \rightarrow {^3He}\pi^+\pi^+\pi^-X^{0} }[/math] [math]\displaystyle{ X^0=n+k\pi^0, k\ge1 }[/math]
5 prongs
NHYP KOD Kanal reakcie
NHYP=1 5001 [math]\displaystyle{ ^3Hep \rightarrow pppp\pi^- }[/math]
NHYP=101 5101 [math]\displaystyle{ ^3Hep \rightarrow pppp\pi^-\pi^{0} }[/math]
NHYP=-101 -5101 [math]\displaystyle{ ^3Hep \rightarrow pppp\pi^-X^{0} }[/math] [math]\displaystyle{ X^0=k\pi^0, k\ge2 }[/math]
2≤NHYYP≤13 5002 [math]\displaystyle{ ^3Hep \rightarrow dpp\pi^+\pi^- }[/math]
102≤NHYYP≤113 5102 [math]\displaystyle{ ^3Hep \rightarrow dpp\pi^+\pi^-\pi^{0} }[/math]
-113≤NHYYP≤-102 -5102 [math]\displaystyle{ ^3Hep \rightarrow dpp\pi^+\pi^-X^{0} }[/math] [math]\displaystyle{ X^0=k\pi^0, k\ge2 }[/math]
14≤NHYYP≤25 5003 [math]\displaystyle{ ^3Hep \rightarrow tp\pi^+\pi^+\pi^- }[/math]
114≤NHYYP≤125 5103 [math]\displaystyle{ ^3Hep \rightarrow tp\pi^+\pi^+\pi^-\pi^{0} }[/math]
-125≤NHYYP≤-114 -5103 [math]\displaystyle{ ^3Hep \rightarrow tp\pi^+\pi^+\pi^-X^{0} }[/math] [math]\displaystyle{ X^0=k\pi^0, k\ge2 }[/math]
26≤NHYYP≤31 5004 [math]\displaystyle{ ^3Hep \rightarrow dd\pi^+\pi^+\pi^- }[/math]
126≤NHYYP≤131 5104 [math]\displaystyle{ ^3Hep \rightarrow dd\pi^+\pi^+\pi^-\pi^{0} }[/math]
-131≤NHYYP≤-126 -5104 [math]\displaystyle{ ^3Hep \rightarrow dd\pi^+\pi^+\pi^-X^{0} }[/math] [math]\displaystyle{ X^0=k\pi^0, k\ge2 }[/math]
132≤NHYYP≤135 5105 [math]\displaystyle{ ^3Hep \rightarrow ppp\pi^+\pi^-n }[/math]
-135≤NHYYP≤-132 -5105 [math]\displaystyle{ ^3Hep \rightarrow ppp\pi^+\pi^-X^{0} }[/math] [math]\displaystyle{ X^0=n+k\pi^0, k\ge1 }[/math]
136≤NHYYP≤147 5106 [math]\displaystyle{ ^3Hep \rightarrow dp\pi^+\pi^+\pi^-n }[/math]
-147≤NHYYP≤-136 -5106 [math]\displaystyle{ ^3Hep \rightarrow dp\pi^+\pi^+\pi^-X^{0} }[/math] [math]\displaystyle{ X^0=n+k\pi^0, k\ge1 }[/math]
148≤NHYYP≤151 5107 [math]\displaystyle{ ^3Hep \rightarrow t\pi^+\pi^+\pi^+\pi^-n }[/math]
-151≤NHYYP≤-148 -5107 [math]\displaystyle{ ^3Hep \rightarrow t\pi^+\pi^+\pi^+\pi^-X^{0} }[/math] [math]\displaystyle{ X^0=n+k\pi^0, k\ge1 }[/math]
-157≤NHYYP≤-152 -5108 [math]\displaystyle{ ^3Hep \rightarrow pp\pi^+\pi^+\pi^-X^{0} }[/math] [math]\displaystyle{ X^0=2n+k\pi^0, k\ge0 }[/math]
-161≤NHYYP≤-158 -5109 [math]\displaystyle{ ^3Hep \rightarrow d\pi^+\pi^+\pi^+\pi^-X^{0} }[/math] [math]\displaystyle{ X^0=2n+k\pi^0, k\ge0 }[/math]
-161≤NHYYP≤-158 -5110 [math]\displaystyle{ ^3Hep \rightarrow p\pi^+\pi^+\pi^+\pi^-X^{0} }[/math] [math]\displaystyle{ X^0=3n+k\pi^0, k\ge0 }[/math]
NHYP=-166 -5111 [math]\displaystyle{ ^3Hep \rightarrow \pi^+\pi^+\pi^+\pi^+\pi^-X^{0} }[/math] [math]\displaystyle{ X^0=4n+k\pi^0, k\ge0 }[/math]
6 prongs
NHYP KOD Kanal reakcie
1≤NHYYP≤12 6001 [math]\displaystyle{ ^3Hep \rightarrow {^3He}p\pi^+\pi^+\pi^-\pi^- }[/math]
101≤NHYYP≤112 6101 [math]\displaystyle{ ^3Hep \rightarrow {^3He}p\pi^+\pi^+\pi^-\pi^-\pi^{0} }[/math]
-112≤NHYYP≤-101 -6101 [math]\displaystyle{ ^3Hep \rightarrow {^3He}p\pi^+\pi^+\pi^-\pi^-X^{0} }[/math] [math]\displaystyle{ X^0=k\pi^0, k\ge2 }[/math]
113≤NHYYP≤116 6102 [math]\displaystyle{ ^3Hep \rightarrow {^3He}\pi^+\pi^+\pi^+\pi^-\pi^-n }[/math]
113≤NHYYP≤116 -6102 [math]\displaystyle{ ^3Hep \rightarrow {^3He}\pi^+\pi^+\pi^+\pi^-\pi^-X^{0} }[/math] [math]\displaystyle{ X^0=n+k\pi^0, k\ge1 }[/math]
7 prongs
NHYP KOD Kanal reakcie
1≤NHYP≤5 7001 [math]\displaystyle{ ^3Hep \rightarrow pppp\pi^+\pi^-\pi^- }[/math]
101≤NHYP≤105 7101 [math]\displaystyle{ ^3Hep \rightarrow pppp\pi^+\pi^-\pi^-\pi^{0} }[/math]
-105≤NHYP≤-101 -7101 [math]\displaystyle{ ^3Hep \rightarrow pppp\pi^+\pi^-\pi^-X^{0} }[/math] [math]\displaystyle{ X^0=k\pi^0, k\ge2 }[/math]
6≤NHYP≤35 7002 [math]\displaystyle{ ^3Hep \rightarrow dpp\pi^+\pi^+\pi^-\pi^- }[/math]
106≤NHYP≤135 7102 [math]\displaystyle{ ^3Hep \rightarrow dpp\pi^+\pi^+\pi^-\pi^-\pi^{0} }[/math]
-135≤NHYP≤-106 -7102 [math]\displaystyle{ ^3Hep \rightarrow dpp\pi^+\pi^+\pi^-\pi^-X^{0} }[/math] [math]\displaystyle{ X^0=k\pi^0, k\ge2 }[/math]
36≤NHYP≤55 7003 [math]\displaystyle{ ^3Hep \rightarrow tp\pi^+\pi^+\pi^+\pi^-\pi^- }[/math]
136≤NHYP≤155 7103 [math]\displaystyle{ ^3Hep \rightarrow tp\pi^+\pi^+\pi^+\pi^-\pi^-\pi^{0} }[/math]
-155≤NHYP≤-136 -7103 [math]\displaystyle{ ^3Hep \rightarrow tp\pi^+\pi^+\pi^+\pi^-X^{0} }[/math] [math]\displaystyle{ X^0=k\pi^0, k\ge2 }[/math]
156≤NHYP≤165 7104 [math]\displaystyle{ ^3Hep \rightarrow ppp\pi^+\pi^+\pi^-\pi^-n }[/math]
-165≤NHYP≤-156 -7104 [math]\displaystyle{ ^3Hep \rightarrow ppp\pi^+\pi^+\pi^-\pi^-X^{0} }[/math] [math]\displaystyle{ X^0=n+k\pi^0, k\ge1 }[/math]
166≤NHYP≤185 7105 [math]\displaystyle{ ^3Hep \rightarrow dp\pi^+\pi^+\pi^+\pi^-\pi^-n }[/math]
-185≤NHYP≤-166 -7105 [math]\displaystyle{ ^3Hep \rightarrow dp\pi^+\pi^+\pi^+\pi^-\pi^-X^{0} }[/math] [math]\displaystyle{ X^0=n+k\pi^0, k\ge1 }[/math]
-195≤NHYP≤-186 -7106 [math]\displaystyle{ ^3Hep \rightarrow pp\pi^+\pi^+\pi^+\pi^-\pi^-X^{0} }[/math] [math]\displaystyle{ X^0=2n+k\pi^0, k\ge0 }[/math]
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