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HBr, 3S-, J´= 8 & V(m+9) https://notendur.hi.is/~agust/rannsoknir/Crete/PPT-131209.pptx Updated: 14.01.14.

Published byErna Magnussen Modified over 6 years ago

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Presentation on theme: "HBr, 3S-, J´= 8 & V(m+9) https://notendur.hi.is/~agust/rannsoknir/Crete/PPT-131209.pptx Updated: 14.01.14."— Presentation transcript:

1 HBr, 3S-, J´= 8 & V(m+9) Updated:

2 3S-, J´= 8 H+ + Br(1/2) H+ <- HBr+(v´) ½ <- ½ predictions
v+max(1/2) = 20* 3S-, J´= 8 H+ + Br(1/2) H+ <- HBr+(v´) ½ <- ½ predictions v+= predictions H+ + Br(3/2) Norm- alized Reproducable peak According to Andreas: Could be H+ + Br <- H(n=3) + Br See slide 3 v+max (3/2) = 24 * 0.47 eV v+= 0.47 eV 3/2 <- 3/2 KER/eV * Gr0, Lay0 <=

3 H*(n=3) + Br *

4 v+= 20 17 * Gr0, Lay0

5 3S-, J´= 8 H+ + H+ <- HBr+(v´) Br(1/2) ……½ <- ½ …….3/2 <- ½
v+max(1/2) = 20* 3S-, J´= 8 H+ + Br(1/2) H+ <- HBr+(v´) v+= ……½ <- ½ …….3/2 <- ½ v+= H+ + Br(3/2) Norm- alized v+max (3/2) = 24 * v+= ……1/2 <- 3/2 …….3/2 <- 3/2 v+= KER/eV * Gr0, Lay0 <=

6 the two biggest H+ <-HBr+(v+) peaks (at 2. 9 and 3
the two biggest H+ <-HBr+(v+) peaks (at 2.9 and 3.38 eV) correspond to v+ (1/2) = 17 for ½ <- ½ and v+(3/2) = 20 for 3/2 <- 3/2 according to calculated v+ levels NB: v+ = 20 for HBr+(3/2) (E = cm-1 ) is very close to v+ = 17 for HBr+*(1/2) (E = cm-1 ) in energy, (See next slide) -and it closely corresponds to the H + Br+ threshold energy ( cm-1) the biggest peak (at 3.38 eV) corresponds to the v+max for the HBr+ state well. The peak at 2.9 eV corresponds to the accessable v+max for the HBr+* state.

7 with respect to other spectra
HBr, V(m+i)´s H+ + Br(1/2) NB: Seems to be shifted with respect to other spectra H+ + Br(3/2) Normalized H+ <- HBr+(v´) V(m+10) V(m+9) V(m+8) V(m+7) V(m+6) V(m+5) V(m+4) KER/eV ; Gr0 Lay0 <=

8 with respect to other spectra
Spectrum shifted by about eV Predictions Original spectrum NB: Seems to be shifted with respect to other spectra 3/2 <- 3/2, predictions(?) KER/eV ; Gr1 Lay1 <=

9 HBr +(1/2) peaks 3S-, J´= 8; 0-1(?) H+ + Br(1/2) HBr +(3/2) peaks
H(n=3) + Br See slide 3 H+ + Br(3/2) KER/eV Lay:0,Gr:0

10 with respect to other spectra
Old Spectrum shifted by about eV Predictions Original/old spectrum NB: Seems to be shifted with respect to other spectra New spectrum 3/2 <- 3/2, predictions(?) KER/eV ; Gr1 Lay1 <=

11 HBr, V(m+i)´s H+ + Br(1/2) New spectrum/V(m+9) H+ + Br(3/2) Normalized
H+ <- HBr+(v´) V(m+10) V(m+9) V(m+8) V(m+7) V(m+6) V(m+5) V(m+4) KER/eV ; Gr0 Lay0 <=

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