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<!DOCTYPE html>
< html >
< head >
< title > Heliosmatics< / title >
< meta name = "description" content = "HELIOSmatics was first built by Ben P. Kay in MS Excel around 2010. Later, it was modified by Ryan Tang. Now, it migrates to web." >
< link rel = "icon" type = "image/x-icon" href = "logos/SOLARIS_favicon.png" >
< script src = "https://cdn.plot.ly/plotly-2.16.1.min.js" > < / script >
< meta name = "viewport" content = "width=device-width, height=device-height, initial-scale=1.0, user-scalable=no, user-scalable=0" / >
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< style >
body{
font-family: Arial, Helvetica, sans-serif;
background : #6DB33E;
}
.column{
float : left;
width: 650px;
padding: 0px;
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.row:after {
content: "";
display: table;
clear: both;
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.plotStyle{
width:650px;
height:600px;
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.slider{
width : 400px;
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.plotSlider{
width: 400px;
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hr {
height:4px;
background-color:#F7CF3C;
border-style:none;
border-width:none;
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@media screen and (max-width: 1000px) {
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.plotStyle{
width:400px;
height: 370px;
}
.slider{
width: 200px;
}
.plotSlider{
width: 180px;
}
img {
height: 50px;
}
}
< / style >
< body >
< h1 > HELIOSmatics< / h1 >
< button onclick = "CopyInputs()" > Copy settings to clipboard< / button >
< h1 id = 'reactionName' style = "color: #1363A7" > 24F(d,p)25F@10MeV/u< / h1 >
< table >
< tr >
< td style = "text-align:right" > Beam (A):< / td >
< td > < Input type = "text" style = "width:60px" value = "24F" id = "beam" enterkeyhint = "done" / > < / td >
< td style = "text-align:right" > Beam Ex:< / td >
< td > < Input type = "text" style = "width:60px" value = "0" id = "beamEx" enterkeyhint = "done" / > < / td >
< td > MeV< / td >
< td id = 'beamSp' > < / td >
<!-- td id="beamYield"></td> -->
< / tr >
< tr >
< td style = "text-align:right" > Target (a):< / td >
< td > < Input type = "text" style = "width:60px" value = "d" id = "target" enterkeyhint = "done" / > < / td >
< / tr >
< tr >
< td style = "text-align:right" > Light (b):< / td >
< td > < Input type = "text" style = "width:60px" value = "p" id = "light" enterkeyhint = "done" / > < / td >
< td style = "text-align:right" > Q-value:< / td >
< td id = 'Q-value' > 2.057< / td >
< td > MeV< / td >
< / tr >
< tr >
< td style = "text-align:right" > Heavy (B):< / td >
< td id = 'heavyName' > 25F< / td >
< / tr >
< / table >
< p style = "font: 12px" id = 'heavySp' > < / p >
< p > < / p >
< table >
< tr >
< td >
< input type = "radio" name = "SSType" id = 'HELIOS' value = "HELIOS" / > HELIOS
< / td >
< td >
< input type = "radio" name = "SSType" id = 'SOLARIS' value = "SOLARIS" checked = "checked" / > SOLARIS
< / td >
< td >
< input type = "radio" name = "SSType" id = 'ISS' value = "ISS" / > ISS
< / td >
< / tr >
< / table >
< p > < / p >
< table >
< tr >
< td style = "text-align:right" > B-field (abs.):< / td >
< td > < Input type = "text" style = "width:60px" value = "2" id = 'BField' enterkeyhint = "done" / > < / td >
< td > T< / td >
< td > < Input type = "range" min = "0" max = "6" step = "0.05" value = "2" class = "slider" id = 'BRange' / > < / td >
< / tr >
< tr >
< td style = "text-align:right" > Beam Energy:< / td >
< td > < Input type = "text" style = "width:60px" value = "10" id = 'KEA' enterkeyhint = "done" / > < / td >
< td > MeV/u< / td >
< td > < Input type = "range" min = "0" max = "20" step = "0.1" value = "10" class = "slider" id = 'KEARange' / > < / td >
< / tr >
< tr >
< td > < / td >
< td > < / td >
< td > < / td >
< td id = 'minKEA' > < / td >
< / tr >
< / table >
< p > < / p >
< table id = "ExTable" , style = "border:1px solid; text-align:center;" >
< tr >
< th style = "width:85px" > E< sub > x< / sub > [MeV]< / th >
< th style = "width:85px" > θ < sub > cm< / sub > [deg]< / th >
< th style = "width:70px" > E< sub > b< / sub > [MeV]< / th >
< th style = "width:70px" > Z< sub > b0< / sub > [mm]< / th >
< th style = "width:70px" > Z< sub > b< / sub > [mm]< / th >
< th style = "width:70px" > 2ρ < sub > b< / sub > [mm]< / th >
< th style = "width:70px" > θ Lab< sub > b< / sub > [deg]< / th >
< th style = "width:60px" > T< sub > b< / sub > [ns]< / th >
< th style = "width:70px" > E< sub > B< / sub > [MeV]< / th >
< th style = "width:90px" > θ Lab< sub > B< / sub > [deg]< / th >
< th style = "width:80px" > Z< sub > B0< / sub > /2[mm]< / th >
< th style = "width:70px" > 2ρ < sub > B< / sub > [mm]< / th >
< / tr >
< / tr >
< td > < input type = "text" id = 'Ex1' name = "Ex" size = "8" value = "0" enterkeyhint = "done" / > < / td >
< td > < input type = "text" id = 'theta1' name = "thetaCM" size = "8" value = "10" enterkeyhint = "done" / > < / td >
< td > < / td >
< td > < / td >
< td > < / td >
< td > < / td >
< td > < / td >
< td > < / td >
< td > < / td >
< td > < / td >
< td > < / td >
< td > < / td >
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< td > < input type = "text" id = 'Ex2' name = "Ex" size = "8" value = "1" enterkeyhint = "done" / > < / td >
< td > < input type = "text" id = 'theta2' name = "thetaCM" size = "8" value = "40" enterkeyhint = "done" / > < / td >
< td > < / td >
< td > < / td >
< td > < / td >
< td > < / td >
< td > < / td >
< td > < / td >
< td > < / td >
< td > < / td >
< td > < / td >
< td > < / td >
< / tr >
< tr >
< td > < button type = "button" onclick = "addRow()" style = "width:85px" > Add E< sub > x< / sub > < / button > < / td >
< td > < button type = "button" onclick = "deleteRow()" > Remove E< sub > x< / sub > < / button > < / td >
< / tr >
< / table >
< p > < / p >
< table >
< tr >
< td style = "text-align:right" > θ < sub > CM< / sub > :< / td >
< td > < Input type = "text" style = "width:60px" value = "0" id = 'thetaCM' enterkeyhint = "done" / > < / td >
< td > deg< / td >
< td > < Input type = "range" min = "0" max = "50" step = "0.1" value = "0" class = "slider" id = 'thetaCMRange' / > < / td >
< / tr >
< td style = "text-align:right" > Array Pos:< / td >
< td > < Input type = "text" style = "width:60px" value = "-100" id = 'posArray' enterkeyhint = "done" / > < / td >
< td > mm< / td >
< td > < Input type = "range" min = "-500" max = "1000" step = "1" value = "-100" class = "slider" id = 'posArrayRange' / > < / td >
< / tr >
< tr >
< td style = "text-align:right" > Recoil Pos:< / td >
< td > < Input type = "text" style = "width:60px" value = "1500" id = 'posRecoil' enterkeyhint = "done" / > < / td >
< td > mm< / td >
< td > < Input type = "range" min = "0" max = "2000" step = "1" value = "1500" class = "slider" id = 'posRecoilRange' / > < / td >
< / tr >
< / table >
< table >
< tr >
< td style = "text-align:right" > Recoil radius, inner [mm]:< / td >
< td > < Input type = "text" style = "width:40px" value = "10" id = 'innerRecoil' enterkeyhint = "done" / > < / td >
< td style = "text-align:right" > outter [mm]:< / td >
< td > < Input type = "text" style = "width:40px" value = "45" id = 'outterRecoil' enterkeyhint = "done" / > < / td >
< / tr >
< / table >
< p > < / p >
< div class = "row" >
< div class = "column" >
< table cellspacing = "0" cellpadding = "0" >
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< td >
< div id = "Plot_EZ" class = "plotStyle" > < / div >
< / td >
< / tr >
< tr > < td > < / td > < / tr >
< tr >
< td > zRange can be changed by Array position.< / td >
< / tr >
< tr >
< td >
< table >
< tr >
< td > eRange:< / td >
< td > < Input type = "text" style = "width:60px" value = "12" id = 'eRange' enterkeyhint = "done" / > < / td >
< td > MeV< / td >
< td > < Input type = "range" min = "1" max = "30" step = "0.1" value = "12" class = "plotSlider" id = 'eRangeSlider' / > < / td >
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< tr > < td > < / td > < / tr >
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< div class = "column" >
< table cellspacing = "0" cellpadding = "0" >
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< td >
< div id = "Plot_RZ" class = "plotStyle" > < / div >
< / td >
< / tr >
< tr > < td > < / td > < / tr >
< tr >
< td >
< table >
< tr >
< td > zRange(Min):< / td >
< td > < Input type = "text" style = "width:60px" value = "-200" id = 'zRange1' enterkeyhint = "done" / > < / td >
< td > mm< / td >
< td > < Input type = "range" min = "-2000" max = "4000" step = "1" value = "-200" class = "plotSlider" id = 'zRange1Slider' / > < / td >
< / tr >
< tr >
< td > zRange(Max):< / td >
< td > < Input type = "text" style = "width:60px" value = "2000" id = 'zRange2' enterkeyhint = "done" / > < / td >
< td > mm< / td >
< td > < Input type = "range" min = "-2000" max = "4000" step = "1" value = "2000" class = "plotSlider" id = 'zRange2Slider' / > < / td >
< / tr >
< tr >
< td > rRange:< / td >
< td > < Input type = "text" style = "width:60px" value = "50" id = 'rRange' enterkeyhint = "done" / > < / td >
< td > mm< / td >
< td > < Input type = "range" min = "1" max = "400" step = "1" value = "50" class = "plotSlider" id = 'rRangeSlider' / > < / td >
< / tr >
< / table >
< / td >
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< tr > < td > < / td > < / tr >
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< / div >
< / div >
< p id = "n0" > < / p >
< p id = "n1" > < / p >
< p id = "n2" > < / p >
< p id = "n3" > < / p >
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<!-- ===================================================== -->
< h2 > DWBA & Monte Carlo Simultion < / h2 >
< h3 > DWBA and E< sub > x< / sub > List:< / h3 >
< b style = "color:red;" > For 2-nucleon transfer< / b > , < b > Orbital< / b > take the form NL=X, where N is number of node, X is momentum number. n and L are related by Σ < sub > i< / sub > (2n< sub > i< / sub > +l< sub > i< / sub > ) = 2N + X + 2n + l, where n< sub > i< / sub > and l< sub > i< / sub > are the principle number and orbital angular momentum of the each transfered nucleon, and n and l are the internal quanta of the 2-nucleon. e.g. (t,p) reaction to 0f orbtial, the left-hand side would be n< sub > i< / sub > = 0 and l< sub > i< / sub > = 3 and the sum is 3+3 = 6 = 2N + X + 2n+l. Assume n = l = 0, we have 6 = 2N+L. Thus, 3L=0, 2L=2,1L=4, 0L=6. < / p >
Beam J< sup > π < / sup > : < input type = "text" id = "neam_jpi" size = "5" value = "" / >
< BR > TODO: guess the orbital for Beam J< sup > π < / sup > =0
< br >
< input type = "checkbox" id = "pos" onclick = "checkParity()" checked / > Positive parity< / td >
< input type = "checkbox" id = "neg" onclick = "checkParity()" checked / > Negative parity< / td >
< input type = "checkbox" id = "unk" onclick = "checkParity()" checked / > Unknown parity< / td >
< br >
< button type = "button" onclick = "addStates()" > Add known states< / button >
Max Ex: < input type = "text" id = "maxEx" size = "5" value = "5" / > MeV
< p id = 'waiting' > < / p >
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< table id = "ExTable2" >
< tr >
< td > < b > E< sub > x< / sub > [MeV] < / b > < / td >
< td > < b > J< sup > π < / sup > < / b > < / td >
< td > < b > Orbital < / b > < / td >
< / tr >
< / tr >
< td > < input type = "text" name = "Ex" size = "5" value = "0" / > < / td >
< td > < input type = "text" name = "Jpi" size = "5" value = "3/2+" / > < / td >
< td > < input type = "text" name = "Orb" size = "6" value = "0d3/2" / > < / td >
< td > < button type = "button" onclick = "addRow2(this)" > Insert Ex< / button > < / td >
< td > < button type = "button" onclick = "deleteRow2(this)" > Remove Ex< / button > < / td >
< / tr >
<!-- <tr>
< td > < / td >
< td > < / td >
< td > < / td >
< td > < button type = "button" onclick = "copyEx()" > Copy Ex< / button > < / td >
< td > < button type = "button" onclick = "pasteEx()" > Paste Ex < / button > < / td >
< / tr > -->
< / table >
< p > < / p >
< input type = "checkbox" name = "DWBA" value = "On" / > Cal. DWBA
< table >
< tr >
< td > Incoming Channel< / td >
< td >
< select name = "op1" >
< option value = "A" selected > D | An & Cai (2006) E < 183 , 12 < A < 238 < / option >
< option value = "H" > D | Han, Shi, & Shen (2006) E < 200 , 12 < A < 209 < / option >
< option value = "B" > D | Bojowald et al. (1988) 50 < E < 80 , 27 < A < 208 < / option >
< option value = "D" > D | Daehnick, Childs, Vrcelj (1980) 11.8 < E < 80 , 27 < A < 238 ( REL ) < / option >
< option value = "C" > D | Daehnick, Childs, Vrcelj (1980) 11.8 < E < 80 , 27 < A < 238 ( NON-REL ) < / option >
< option value = "L" > D | Lohr and Haeberli (1974) 9 < E < 13 , 40 < A < / option >
< option value = "Q" > D | Perey and Perey (1963) 12 < E < 25 , 40 < A < / option >
< option value = "Z" > D | Zhang, Pang, Lou (2016) 5 < E < 170 , A < 18 , spe 6-7Li < / option >
< option value = "K" > P | Koning & Delaroche (2009) E < 200 , 24 < A < 209 | Iso . Dep . < / option >
< option value = "V" > P | Varner et al. (1991) 16 < E < 65 , 4 < A < 209 < / option >
< option value = "M" > P | Menet et al. (1971) 30 < E < 60 , 40 < A < / option >
< option value = "G" > P | Becchetti and Greenlees (1969) E < 50 , 40 < A < / option >
< option value = "P" > P | Perey (1963) E < 20 , 30 < A < 100 < / option >
< option value = "x" > A=3 | Xu, Guo, Han, & Shen (2011) E < 250 , 20 < A < 209 < / option >
< option value = "l" > A=3 | Liang, Li, & Cai (2009) E < 270 , All masses < / option >
< option value = "p" > A=3 | Pang et al. (2009) all E, all masses, Iso. Dep. < / option >
< option value = "c" > A=3 | Li, Liang, Cai (2007), E < 40 , 48 < A < 232 , Tritons < / option >
< option value = "t" > A=3 | Trost et al. (1987) 10 < E < 220 , 10 < A < 208 < / option >
< option value = "h" > A=3 | Hyakutake et al. (1980) 90 < E < 120 , About 58 < A < 92 < / option >
< option value = "b" > A=3 | Becchetti and Greenlees (1971), E < 40 , 40 < A , Iso . Dep . < / option >
< option value = "s" > A=4 | Su & Han (2015) E < 398 , 20 < A < 209 < / option >
< option value = "a" > A=4 | Avrigeanu et al. (2009) < / option >
< option value = "f" > A=4 | Bassani and Picard (1969) 24 < E < 31 , A = 90 < / option >
< / select >
< td >
< / tr >
< tr >
< td > Outgoing Channel< / td >
< td >
< select name = "op2" >
< option value = "A" > D | An & Cai (2006) E < 183 , 12 < A < 238 < / option >
< option value = "H" > D | Han, Shi, & Shen (2006) E < 200 , 12 < A < 209 < / option >
< option value = "B" > D | Bojowald et al. (1988) 50 < E < 80 , 27 < A < 208 < / option >
< option value = "D" > D | Daehnick, Childs, Vrcelj (1980) 11.8 < E < 80 , 27 < A < 238 ( REL ) < / option >
< option value = "C" > D | Daehnick, Childs, Vrcelj (1980) 11.8 < E < 80 , 27 < A < 238 ( NON-REL ) < / option >
< option value = "L" > D | Lohr and Haeberli (1974) 9 < E < 13 , 40 < A < / option >
< option value = "Q" > D | Perey and Perey (1963) 12 < E < 25 , 40 < A < / option >
< option value = "Z" > D | Zhang, Pang, Lou (2016) 5 < E < 170 , A < 18 , spe 6-7Li < / option >
< option value = "K" selected > P | Koning & Delaroche (2009) E < 200 , 24 < A < 209 , Iso . Dep . < / option >
< option value = "V" > P | Varner et al. (1991) 16 < E < 65 , 4 < A < 209 < / option >
< option value = "M" > P | Menet et al. (1971) 30 < E < 60 , 40 < A < / option >
< option value = "G" > P | Becchetti and Greenlees (1969) E < 50 , 40 < A < / option >
< option value = "P" > P | Perey (1963) E < 20 , 30 < A < 100 < / option >
< option value = "x" > A=3 | Xu, Guo, Han, & Shen (2011) E < 250 , 20 < A < 209 < / option >
< option value = "l" > A=3 | Liang, Li, & Cai (2009) E < 270 , All masses < / option >
< option value = "p" > A=3 | Pang et al. (2009) all E | all masses, Iso. Dep. < / option >
< option value = "c" > A=3 | Li, Liang, Cai (2007), E < 40 , 48 < A < 232 , Tritons < / option >
< option value = "t" > A=3 | Trost et al. (1987) 10 < E < 220 , 10 < A < 208 < / option >
< option value = "h" > A=3 | Hyakutake et al. (1980) 90 < E < 120 , About 58 < A < 92 < / option >
< option value = "b" > A=3 | Becchetti and Greenlees (1971), E < 40 , 40 < A , Iso . Dep . < / option >
< option value = "s" > A=4 | Su & Han (2015) E < 398 , 20 < A < 209 < / option >
< option value = "a" > A=4 | Avrigeanu et al. (2009) < / option >
< option value = "f" > A=4 | Bassani and Picard (1969) 24 < E < 31 , A = 90 < / option >
< / select >
< td >
< / tr >
< / table >
< table >
< tr >
< input type = "checkbox" name = "onlyDWBA" value = "On" / > Only DWBA and Don't Sim. Angle range (for only DWBA)
< / tr >
< tr >
< td > Min [deg]: < / td >
< td > < input type = "text" name = "minAng" size = "6" value = "0" / > < / td >
< td > Max [deg]: < / td >
< td > < input type = "text" name = "maxAng" size = "6" value = "90" / > < / td >
< / tr >
< / table >
< button type = "button" onclick = "DWBA_Sim()" style = "width:200px;height:60px;" > Run DWBA and Simulation< / button >
<!-- ===================================================== -->
< hr >
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< h1 > θ < sub > CM< / sub > Calculator< / h1 >
The calculation only give θ < sub > CM< / sub > after the bending.
< p > < / p >
< table >
< tr >
< td > Ex [MeV] : < / td >
< td > < Input type = "text" style = "width:60px" value = "0" id = 'Ex0' enterkeyhint = "done" / > < / td >
< td > θ < sub > CM< / sub > Gate [deg] : < / td >
< td > < Input type = "text" style = "width:60px" value = "10" id = 'thetaCMGate' enterkeyhint = "done" / > < / td >
< td > X Gate [%] : < / td >
< td > < Input type = "text" style = "width:60px" value = "95" id = 'XGate' enterkeyhint = "done" / > < / td >
< / tr >
< tr >
< table id = 'thetaCMTable' style = "border:1px solid; text-align:center;" >
< tr >
< td style = "width:30px" > < b > ID< / b > < / td >
< td style = "width:120px" > < b > pos< sub > 0< / sub > (gated)< / b > < / td >
< td style = "width:120px" > < b > pos< sub > 1< / sub > (gated)< / b > < / td >
< td style = "width:60px" > < b > θ < sub > 1< / sub > [deg]< / b > < / td >
< td style = "width:60px" > < b > θ < sub > 2< / sub > [deg]< / b > < / td >
< td style = "width:60px" > < b > θ < sub > avg< / sub > [deg]< / b > < / td >
< td style = "width:60px" > < b > Δ θ [deg]< / b > < / td >
< td style = "width:100px" > < b > sin(θ < sub > avg< / sub > )Δ θ < / b > < / td >
< / tr >
< / table >
< / tr >
< / table >
<!-- ===================================================== -->
< hr >
< p > < / p >
HELIOSmatics was first built by Ben P. Kay in MS Excel around 2010. It was modified by Ryan Tang later. And now it migrated to the web on Dec, 2022.
< br >
The calculation can be found in the source code (heliosmatics.js or press F12)
< p > < / p >
< / body >
<!-- ######################################################################################### -->
< script src = "heliosmatics.js" > < / script >
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< script src = "montecarlo.js" > < / script >
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< / html >
