Controlling vibrational wave packets in condensed phase ... fileControlling vibrational wave packets...
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1 Controlling vibrational wave packets in condensed phase: Halogens in rare gas solids Markus Gühr, Heide Ibrahim, Nikolaus Schwentner Institut für Experimentalphysik Freie Universität Berlin
Transcript of Controlling vibrational wave packets in condensed phase ... fileControlling vibrational wave packets...
1
Controlling vibrational wave packets in condensed phase:
Halogens in rare gas solids
Markus Gühr, Heide Ibrahim, Nikolaus SchwentnerInstitut für Experimentalphysik
Freie Universität Berlin
FRISNO 8, 21.02.2005 M. Gühr 2
MotivationHalogen Molecule Rare Gas Crystal
• Spectroscopic properties• Ultrafast experiments done• Long lasting coherent wavepackets
• Simple host (fcc)• Chemical inert• High ionization energy• Phonon dispersion
+Br Br
Ar
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Motivation
• Double substitutional site• No rotation• Ultrafast vibrational relaxation and decoherence
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Outline
I: Method, RKR Potential and energy relaxation
II: Vibrational dephasing using the focusing schemeWave packet control, revivals and electronicdephasing
III: Coherent phonons of the rare gas crystal
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Part IPotentials and energy relaxation
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Method: Pump-probe spectroscopy
0.20 0.25 0.30 0.35 0.40 0.45 0.50024
16
18
20
50
55
E
B
X
E [1
03 cm
-1]
RBr-Br [nm]
Pum
p
Pro
beLIF
∆t
0.0 0.5 1.0 1.5 2.0
560 nm
Pump =Probe = 345 nm
Inte
nsity
[arb
. uni
ts]
∆t [ps]
T
Br2:ArFree Br2
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Method: Pump-probe spectroscopy
0.20 0.25 0.30 0.35 0.40 0.45 0.50024
16
18
20
50
55
E
B
X
E [1
03 cm
-1]
RBr-Br [nm]
Pro
be
0.0 0.5 1.0 1.5 2.0
560 nm
520 nm
500 nm
Pump =Probe = 345 nm
Inte
nsity
[arb
. uni
ts]
∆t [ps]
T
Br2:Ar
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RKR Potential
0.20 0.25 0.30 0.35 0.40 0.45 0.50024
16
18
20
50
55
E
B
X
E [1
03 cm
-1]
RBr-Br [nm]
0.0 0.5 1.0 1.5 2.0
560 nm
520 nm
500 nm
Pump =Probe = 345 nm
Inte
nsity
[arb
. uni
ts]
∆t [ps]
T
Br2:Ar
Br2:Ar
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Part IIDispersion, dephasing
and wave packet control
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Dispersion of wave packets
Anharmonic: WP broadens due to dispersion
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Dispersion and Focusingno chirp
• chirp parameter β‘• anharmonicity ωexe• osc.frequency ν
Topt=-β‘ν2/(4πωexe)
neg. chirp
Classical MorsePeriod!
Kohler et al., Phys. Rev. Lett. 74 3360-3363 (1995)
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Focusing Experiment
• Compensate dispersive background• Remaining background is dephasive• vibrational dephasing time 3 ps
0 1 2 3 4
SIMULATION
Inte
nsity
∆t [ps]
β'=0 fs cm β'= -1.76 fs cm
0 1 2 3 4
Experiment
∆t [ps]
Dephasing
Br Br
Ar
Energy RelaxationDispersionDephasing
Gühr, Ibrahim, Schwentner, PCCP 6, 5353-5361 (2004)
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Revivals of a vibrational wave packet
Trev = 2π/ωexe = 21.08 ps for B of Br2
0 2 4 6 8 10
Trev/6
TT
Trev/2Trev/4
∆t [ps]I. Sh. Averbukh et al., Sov. Phys. Usp., 34, 572 (1991)
ν 3ν
Trev /6 at 3.5 psFrequency: 3ν
3.0 3.5 4.0T/3
Rutz et al., Chem. Phys. Lett., 257, 365-373 (1996)
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Revivals in Wigner plot
R
p
FC Area
Probe
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Control of Revival Structureno chirp pos. chirp neg. chirp
• chirp parameter β‘ determines the focus in time
Topt=-β‘ν2/(4πωexe) ωexe=1.64 cm-1
ν=118cm-1 (570 nm)
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Control of Revival Structure
0 2 4 6 8 10 12
Sign
al
∆ t [ps]
Si
gnal
Sign
al no chirp
negative chirp
positive chirp
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Positive Chirp Excitation Experiment
-0.2 0.0 0.2 0.4 0.6 0.8 1.0 1.2 1.4
Experiment (Br2:Ar) Simulation (freies Br2)
Inte
nsitä
t
∆t [ps]
TT/3
Four level coherence about 1.2 ps
Gühr, Ibrahim, Schwentner, PCCP 6, 5353-5361 (2004)
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Part IIICoherent Phonons
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Coherent host dynamics
0 1 2 3 4 5
340 fs 500 fs
normalized spectrum
Inte
nsity
[arb
. uni
ts]
∆t [ps]
Pump: 520 nmProbe: 348 nm
experiment average
b)
a)
Br2:Ar• Molecular period vanishes• New period of 500 fs (2 THz)• for different excitation (A, Bstate)
• No molecular period• Host property
Gühr, Schwentner, PCCP 7,760-767 (2005)
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Coherent host dynamics
0 1 2 3 4 5 6 7 8 9 10
A excitation
∆t [ps]
B excitation
650 fs
c)In
tens
ity [a
rb. u
nits
]
b)
a)
I2:Kr • For I2:Kr host oscillation650 fs (1.5 THz)
• Phase stability• No forced excitation • Impulsive excitation• Decoupling from molec. motion
Gühr, Bargheer, Schwentner, Phys. Rev. Lett. 91, 085504 (2003)
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Zone Boundary Phonon
• Host modulation has frequency of ZBP for Ar or Kr crystal• ZBP has vg=0
0.0 0.5 1.00.0
0.5
1.0
1.5
2.0
2.5
f [T
Hz]
36Ar
k
I2:Kr
Br2:40Ar
84Kr
FFT Power
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Phonon Excitation
3
1
X B or APump Pulse
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Phonon Detection
Covalent state
Internuclear distance
Ene
rgy
Ener
gy re
lax.
WP energydistribution
Prob
e se
nsiti
vity
Ewin
Rwin
0 1 2 3 4 5 6 7 8 ∆t
+ -
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Phonon Detection
Covalent state
Internuclear distance
Ene
rgy
Ener
gy re
lax.
WP energydistribution
Prob
e se
nsiti
vity
Ewin
Rwin
0 1 2 3 4 5 6 7 8 ∆t
+ -
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Summary• Focusing allowed to separate dispersion and dephasing
• Revivals can be controlled by positive chirp
• Coherent Phonons
0 1 2 3 4
Experiment
∆t [ps]
0 1 2 3 4 5 6 7 8 ∆t
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Thanks to:N. Schwentner and groupD. Tannor for a major part of the Matlab codeJ. Manz for TDQM lectureMr. Zimmermann (glassware)Sfb 450 Analysis and control of ultrafast photoinduced reactions
