Plug Response Tuning
T series
T19b
PBYMIP(1)=0.87
PBYMIP(2)=1.28
FEDP = 0.8719 + 0.0724 * tanh( 1.8459 * ( ln(p)- 0.9952 ) )
FAKEEV Minbias (p<4GeV) plus merged intervalls of FAKEEV exp(-p) spectra
T20
PBYMIP(1)=0.87
PBYMIP(2)=1.27
FEDP = 0.8719 + 0.0724 * tanh( 1.8459 * ( ln(p)- 0.9952 ) )
FAKEEV Minbias (p<4GeV) plus merged intervalls of FAKEEV exp(-p) spectra
T19
PBYMIP(1)=0.88
PBYMIP(2)=1.28
FEDP = 0.8719 + 0.0724 * tanh( 1.8459 * ( ln(p)- 0.9952 ) )
FAKEEV Minbias (p<4GeV) plus merged intervalls of FAKEEV exp(-p) spectra
T18
PBYMIP(1)=0.91
PBYMIP(2)=1.295
FEDP = 0.8539 + 0.0771 * tanh( 2.0587 * ( ln(p)- 0.8581 ) )
FAKEEV Minbias (p<4GeV) plus merged intervalls of FAKEEV exp(-p) spectra
T17
PBYMIP(1)=0.94
PBYMIP(2)=1.31
FEDP = 0.8417 + 0.0815 * tanh( 2.4164 * ( ln(p)- 0.8231 ) )
FAKEEV Minbias (p<4GeV) plus merged intervalls of FAKEEV exp(-p) spectra
T16
PBYMIP(1)=0.98
PBYMIP(2)=1.31
FEDP = 0.8327 + 0.0929 * tanh( 2.0520 * ( ln(p)- 0.8741 ) )
FAKEEV Minbias (p<4GeV) plus merged intervalls of FAKEEV exp(-p) spectra
T15
PBYMIP(1)=1.01
PBYMIP(2)=1.335
FEDP = 0.8327 + 0.0929 * tanh( 2.0520 * ( ln(p)- 0.8741 ) )
FAKEEV Minbias (p<4GeV) plus merged intervalls of FAKEEV exp(-p) spectra
T14
PBYMIP(1)=1.03
PBYMIP(2)=1.355
FEDP = 0.8333 + 0.0935 * tanh( 1.9594 * ( ln(p)- 0.9783 ) )
FAKEEV Minbias (p<4GeV) plus merged intervalls of FAKEEV exp(-p) spectra
T13
PBYMIP(1)=1.06
PBYMIP(2)=1.37
FEDP = 0.8240 + 0.0973 * tanh( 1.8608 * ( ln(p)- 1.0148 ) )
FAKEEV Minbias (p<4GeV) plus merged intervalls of FAKEEV exp(-p) spectra
T12
PBYMIP(1)=1.10
PBYMIP(2)=1.41
FEDP = 0.8240 + 0.0973 * tanh( 1.8608 * ( ln(p)- 1.0148 ) )
FAKEEV Minbias (p<4GeV) plus merged intervalls of FAKEEV exp(-p) spectra
T11
PBYMIP(1)=1.15
PBYMIP(2)=1.41
FEDP = 0.7996 + 0.0996 * tanh( 2.1499 * ( ln(p)- 0.9631 ) )
FAKEEV Minbias (p<4GeV) plus merged intervalls of FAKEEV exp(-p) spectra
T10
PBYMIP(1)=1.180
PBYMIP(2)=1.395
FEDP = 0.8187 + 0.0984 * tanh( 2.1282 * ( ln(p)- 1.064 ) )
FAKEEV Minbias (p<4GeV) plus merged intervalls of FAKEEV exp(-p) spectra
T10b
PBYMIP(1)=1.140
PBYMIP(2)=1.345
FEDP = 0.835 + 0.0984 * tanh( 2.1282 * ( ln(p)- 1.064 ) )
FAKEEV Minbias (p<4GeV) plus merged intervalls of FAKEEV exp(-p) spectra
T9
PBYMIP(1)=1.28
PBYMIP(2)=1.47
FEDP = 0.7996 + 0.0996 * tanh( 2.1499 * ( ln(p)- 0.9631 ) )
FAKEEV Minbias (p<4GeV) plus merged intervalls of FAKEEV exp(-p) spectra
T9b
PBYMIP(1)=1.22
PBYMIP(2)=1.41
FEDP = 0.7996 + 0.0996 * tanh( 2.1499 * ( ln(p)- 0.9631 ) )
FAKEEV Minbias (p<4GeV) plus merged intervalls of FAKEEV exp(-p) spectra
T8b2
PBYMIP(1)=1.32
PBYMIP(2)=1.47
FEDP = 0.7773 + 0.1148 * tanh( 1.8243 * ( ln(p)- 0.9758 ) )
FAKEEV Minbias (p<4GeV) plus merged intervalls of FAKEEV exp(-p) spectra
T8
PBYMIP(1)=1.40
PBYMIP(2)=1.52
FEDP = 0.7773 + 0.1148 * tanh( 1.8243 * ( ln(p)- 0.9758 ) )
T8b
PBYMIP(1)=1.32
PBYMIP(2)=1.47
FEDP = 0.7773 + 0.1148 * tanh( 1.8243 * ( ln(p)- 0.9758 ) )
T7
PBYMIP(1)=1.48
PBYMIP(2)=1.72
FEDP = 0.7837 + 0.0992 * tanh( 1.7752 * ( ln(p)- 0.9467 ) )
T7b
PBYMIP(1)=1.40
PBYMIP(2)=1.52
FEDP = 0.7837 + 0.0992 * tanh( 1.7752 * ( ln(p)- 0.9467 ) )
T6
PBYMIP(1)=1.48
PBYMIP(2)=1.80
FEDP = 0.7606 + 0.1105 * tanh( 2.4254* ( ln(p)- 1.1901 ) )
T6b
PBYMIP(1)=1.48
PBYMIP(2)=1.76
FEDP = 0.7606 + 0.1105 * tanh( 2.4254* ( ln(p)- 1.1901 ) )
T6c
PBYMIP(1)=1.48
PBYMIP(2)=1.72
FEDP = 0.7606 + 0.1105 * tanh( 2.4254* ( ln(p)- 1.1901 ) )
T6d
PBYMIP(1)=1.45
PBYMIP(2)=1.66
FEDP = 0.7606 + 0.1105 * tanh( 2.4254* ( ln(p)- 1.1901 ) )
T6e
PBYMIP(1)=1.45
PBYMIP(2)=1.63
FEDP = 0.7606 + 0.1105 * tanh( 2.4254* ( ln(p)- 1.1901 ) )
T5
PBYMIP(1)=1.53
PBYMIP(2)=1.85
FEDP = 0.7551 + 0.0863 * tanh( 2.3512* ( ln(p)- 1.1970 ) )
T5b
PBYMIP(1)=1.53
PBYMIP(2)=1.85
FEDP = 0.7551 + 0.0863 * tanh( 2.3512* ( ln(p)- 1.1970 ) )
T4b
PBYMIP(1)=1.70
PBYMIP(2)=2.01
FEDP = 0.7551 + 0.0863 * tanh( 2.3512* ( ln(p)- 1.1970 ) )
T4b2
PBYMIP(1)=1.62
PBYMIP(2)=1.95
FEDP = 0.7551 + 0.0863 * tanh( 2.3512* ( ln(p)- 1.1970 ) )
T3
PBYMIP(1)=1.70
PBYMIP(2)=2.01
FEDP = 0.7356 + 0.1111 * tanh( 2.1381* ( ln(p)- 1.1693 ) )
T3b
PBYMIP(1)=1.70
PBYMIP(2)=2.01
FEDP = 0.7384 + 0.0981 * tanh( 2.7700* ( ln(p)- 1.1937 ) )
T3bx
PBYMIP(1)=1.70
PBYMIP(2)=2.01
FEDP = 0.7384 + 0.0981 * tanh( 2.7700* ( ln(p)- 1.1937 ) )
Number of fake track reduced to 4;
No fake tracks for p<4GeV/c;
T2
PBYMIP(1)=1.70
PBYMIP(2)=2.01
FEDP = 0.7701 + 0.0703 * tanh( 2.7528* ( ln(p)- 1.5235 ) )
T1
PBYMIP(1)=1.70
PBYMIP(2)=2.01
FEDP = 0.7071 + 0.1362 * tanh( 1.26* ( ln(p)- 0.26 ) )
Pedro Movilla Fernandez
Last modified: Tue Dec 19 02:56:48 PST 2006
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