laser spectroscopy on nuclear ground states for …seminar/lecture/aysto/5. optical...laser...
TRANSCRIPT
![Page 1: Laser spectroscopy on nuclear ground states for …seminar/Lecture/Aysto/5. Optical...Laser spectroscopy on nuclear ground states for charge radii and moments. Some new developments](https://reader035.vdocuments.net/reader035/viewer/2022063017/5f085a0c7e708231d4219522/html5/thumbnails/1.jpg)
Laser spectroscopy on nuclear ground states for charge radii and moments.
Some new developments
Laser spectroscopy on nuclear ground states for charge radii and moments.
Some new developments
Thanks to: Jon Billowes, Paul Campbell, Iain Moore, H.-J. Kluge
For a review up to 2002, see: H.-J. Kluge and W. Nörtershauser , Lasers for Nuclear Physics,Spectrochim. Acta B 58 (2003) 1031
![Page 2: Laser spectroscopy on nuclear ground states for …seminar/Lecture/Aysto/5. Optical...Laser spectroscopy on nuclear ground states for charge radii and moments. Some new developments](https://reader035.vdocuments.net/reader035/viewer/2022063017/5f085a0c7e708231d4219522/html5/thumbnails/2.jpg)
Laser Spectroscopy
Investigation of� Hyperfine structure� Isotope shifts� Isomer shifts
provides model-independentdata…
Optical techniques provide the sensitivity and precision requiredto measure these effects.
The nucleus is not a point charge –the atomic energy levels are perturbedby the electric and magnetic fieldsat the nucleus (part per million effects)
![Page 3: Laser spectroscopy on nuclear ground states for …seminar/Lecture/Aysto/5. Optical...Laser spectroscopy on nuclear ground states for charge radii and moments. Some new developments](https://reader035.vdocuments.net/reader035/viewer/2022063017/5f085a0c7e708231d4219522/html5/thumbnails/3.jpg)
Isotope Shift (IS) Hyperfine Structure (HFS)
AAr
′2δ
Nuclear Spin IMagnetic Dipole Moment µI
Electric Quadrupole Moment Qs
Hyperfine Anomaly
Mean Square Charge Radii
Sample preparation is crucial…..Nuclear reaction products must be slowed and thermalizedquickly, efficiently, universally and selectively.
Thermal or discharge ion source+ isotope separator
Gas stoppers and beamcoolers
![Page 4: Laser spectroscopy on nuclear ground states for …seminar/Lecture/Aysto/5. Optical...Laser spectroscopy on nuclear ground states for charge radii and moments. Some new developments](https://reader035.vdocuments.net/reader035/viewer/2022063017/5f085a0c7e708231d4219522/html5/thumbnails/4.jpg)
Introduction to laser spectroscopy
Ion source (40kV)Laser
PMT
Gat
es
Tun
ing
volta
ge
Isotope Shifts
� δ<r2> Size� δ<β2
2> Shape� δσ Diffuseness
Hyperfine Structure
� µ µ µ µ� Qs � <β2>
![Page 5: Laser spectroscopy on nuclear ground states for …seminar/Lecture/Aysto/5. Optical...Laser spectroscopy on nuclear ground states for charge radii and moments. Some new developments](https://reader035.vdocuments.net/reader035/viewer/2022063017/5f085a0c7e708231d4219522/html5/thumbnails/5.jpg)
Present status of laser spectroscopy measurementsPresent status of laser spectroscopy measurements
![Page 6: Laser spectroscopy on nuclear ground states for …seminar/Lecture/Aysto/5. Optical...Laser spectroscopy on nuclear ground states for charge radii and moments. Some new developments](https://reader035.vdocuments.net/reader035/viewer/2022063017/5f085a0c7e708231d4219522/html5/thumbnails/6.jpg)
Mass & decayspectroscopy
Collinear laser spectroscopy
Ion guide & laser ionsource trap
RFQ cooler & buncher – opticalmanipulation techniques
FURIOS laser cabin
The IGISOL Beamline at JYFLThe IGISOL Beamline at JYFL
![Page 7: Laser spectroscopy on nuclear ground states for …seminar/Lecture/Aysto/5. Optical...Laser spectroscopy on nuclear ground states for charge radii and moments. Some new developments](https://reader035.vdocuments.net/reader035/viewer/2022063017/5f085a0c7e708231d4219522/html5/thumbnails/7.jpg)
COLLINEAR LASER SPECTROSCOPY WITH BUNCHINGCOLLINEAR LASER SPECTROSCOPY WITH BUNCHINGIGISOL: E ~ 40 keV, δδδδE ~100 eV
DC-cooler: δδδδE < 1 eVtransmission > 60%
Buncher: Accumulation time 10 ms - 10 s
Buffer gas cell, pHe ~ 0.1 mbar
DecelerationCollisional cooling in an
RF-quadrupole Acceleration
Beam in Beam out
40 kV
Turbo pump500 l/s
Turbo pump1300 l/s
Turbo pump900 l/s
High vacuum 10-6 mbar
Intermediate vacuum 10-4 mbar Electrodes
HV isolator
Laserbeam
174Hf
2·104 improvement of SNR !
![Page 8: Laser spectroscopy on nuclear ground states for …seminar/Lecture/Aysto/5. Optical...Laser spectroscopy on nuclear ground states for charge radii and moments. Some new developments](https://reader035.vdocuments.net/reader035/viewer/2022063017/5f085a0c7e708231d4219522/html5/thumbnails/8.jpg)
+40 kV
Ion beam cooler
Light collection region
(Laser resonance fluorescence)
Trap and accumulates ions – typically 100 - 500 ms
Reduces energy spread of ion beam (100eV → 1eV)
Improves emittance of ion beam
Releases ions in a 10 µs bunch
Cooler advantagesCooler advantages
![Page 9: Laser spectroscopy on nuclear ground states for …seminar/Lecture/Aysto/5. Optical...Laser spectroscopy on nuclear ground states for charge radii and moments. Some new developments](https://reader035.vdocuments.net/reader035/viewer/2022063017/5f085a0c7e708231d4219522/html5/thumbnails/9.jpg)
Cooling for laser spectroscopy
Reduced peak skewingz
V
End plate
Emittance: �3 π mm.mrad
Less spectral broadening
Better laser-ion overlap
He buffer gas
Energy spread: 100�1 eV
![Page 10: Laser spectroscopy on nuclear ground states for …seminar/Lecture/Aysto/5. Optical...Laser spectroscopy on nuclear ground states for charge radii and moments. Some new developments](https://reader035.vdocuments.net/reader035/viewer/2022063017/5f085a0c7e708231d4219522/html5/thumbnails/10.jpg)
Bunching for laser spectroscopy
zEnd
pla
te p
oten
tial
Accumulate
Release
Cou
nts
100
2005.25 hours 8000 ions/s
100V
Before
Cou
nts
0
3048 minutes 2000 ions/s
After
PMT
20µs gate
Background eg. 200ms accumulation=20µs gate widthsuppression ~10
4
![Page 11: Laser spectroscopy on nuclear ground states for …seminar/Lecture/Aysto/5. Optical...Laser spectroscopy on nuclear ground states for charge radii and moments. Some new developments](https://reader035.vdocuments.net/reader035/viewer/2022063017/5f085a0c7e708231d4219522/html5/thumbnails/11.jpg)
96-102Zr ~ 3000 ions/s 100Zr~ 500 ions/s 96Zr
Some recent highlights – but first an older measurementSome recent highlights – but first an older measurement
Deformed nucleus
Spherical nucleus
Zr charge radii measurement at IGISOL
P. Campbell et al., Phys. Rev. Lett. 89 (2002) 082501
Droplet modelMyers & Schmidt, Nucl. Phys. A410 (1983) 61.
Mass number
<r2 >
(fm
2 )
84 86 88 90 92 94 96 98 100 102 10418.4
18.8
19.2
19.6
20.0
20.4
20.8
80 100 12018
19
20
21
22
<β2>=0.0
<β2>=0.1
<β2>=0.2
<β2>=0.3
<β2>=0.4
![Page 12: Laser spectroscopy on nuclear ground states for …seminar/Lecture/Aysto/5. Optical...Laser spectroscopy on nuclear ground states for charge radii and moments. Some new developments](https://reader035.vdocuments.net/reader035/viewer/2022063017/5f085a0c7e708231d4219522/html5/thumbnails/12.jpg)
40Zr
(Very similar to 38Sr behaviour)
Radii predictions for 40Zr from B(E2) valuesRadii predictions for 40Zr from B(E2) values
Big discrepancies between B(E2)measurements and charge radii. Butfor A=96 to 100, nuclear spins areeither 0 or ½: NO measureablequadrupole moments…..….look at yttrium (+isomers).
![Page 13: Laser spectroscopy on nuclear ground states for …seminar/Lecture/Aysto/5. Optical...Laser spectroscopy on nuclear ground states for charge radii and moments. Some new developments](https://reader035.vdocuments.net/reader035/viewer/2022063017/5f085a0c7e708231d4219522/html5/thumbnails/13.jpg)
• Shape change at N=59
• 98m is well deformed
39Y isotopes and isomers 39Y isotopes and isomers
I=0 I≠0 Prolate
![Page 14: Laser spectroscopy on nuclear ground states for …seminar/Lecture/Aysto/5. Optical...Laser spectroscopy on nuclear ground states for charge radii and moments. Some new developments](https://reader035.vdocuments.net/reader035/viewer/2022063017/5f085a0c7e708231d4219522/html5/thumbnails/14.jpg)
ββββ 2222 =0.0=0.0=0.0=0.0
ββββ 2222 =0.1=0.1=0.1=0.1
ββββ 2222 =0.2=0.2=0.2=0.2
ββββ 2222 =0.3=0.3=0.3=0.3
ββββ 2222 =0.4=0.4=0.4=0.4
ββββ 2222 =0.5=0.5=0.5=0.5
17,8
18,2
18,6
19,0
19,4
19,8
20,2
84 86 88 90 92 94 96 98 100 102 104Mass Number, A
<r2 >A
/ fm
2
Stable IsotopesRadioactivesIsomers
Yttrium charge radii Yttrium charge radii
![Page 15: Laser spectroscopy on nuclear ground states for …seminar/Lecture/Aysto/5. Optical...Laser spectroscopy on nuclear ground states for charge radii and moments. Some new developments](https://reader035.vdocuments.net/reader035/viewer/2022063017/5f085a0c7e708231d4219522/html5/thumbnails/15.jpg)
Optical manipulation in the RF cooler-buncherOptical manipulation in the RF cooler-buncher
In some isotopes of yttriumthe nuclear spin is uncertain.We can manipulate the atomicstate to provide a better startingpoint for collinear work
This is done by “opticallypumping” the yttrium in theRF cooler – a new technique!
![Page 16: Laser spectroscopy on nuclear ground states for …seminar/Lecture/Aysto/5. Optical...Laser spectroscopy on nuclear ground states for charge radii and moments. Some new developments](https://reader035.vdocuments.net/reader035/viewer/2022063017/5f085a0c7e708231d4219522/html5/thumbnails/16.jpg)
363.3nm pumping (40% transfer)
1pA of 89Y continuous beam
Indifference to bunching
Use broadband pulsed lasers with high repetitionrates (10 kHz)
![Page 17: Laser spectroscopy on nuclear ground states for …seminar/Lecture/Aysto/5. Optical...Laser spectroscopy on nuclear ground states for charge radii and moments. Some new developments](https://reader035.vdocuments.net/reader035/viewer/2022063017/5f085a0c7e708231d4219522/html5/thumbnails/17.jpg)
Laser spectroscopy of niobium
322n
m
286n
m
Ground state2356.76cm-1
J=1
J=2
50% increase due to pumping � 1 photon per 2700 ions
![Page 18: Laser spectroscopy on nuclear ground states for …seminar/Lecture/Aysto/5. Optical...Laser spectroscopy on nuclear ground states for charge radii and moments. Some new developments](https://reader035.vdocuments.net/reader035/viewer/2022063017/5f085a0c7e708231d4219522/html5/thumbnails/18.jpg)
Mass & decayspectroscopy
Collinear laser spectroscopy
Ion guide & laser ionsource (trap)
RFQ cooler & buncher – opticalmanipulation
FURIOS laser cabin
The IGISOL Beamline at JYFLThe IGISOL Beamline at JYFL
![Page 19: Laser spectroscopy on nuclear ground states for …seminar/Lecture/Aysto/5. Optical...Laser spectroscopy on nuclear ground states for charge radii and moments. Some new developments](https://reader035.vdocuments.net/reader035/viewer/2022063017/5f085a0c7e708231d4219522/html5/thumbnails/19.jpg)
~6 eV(5-9 eV)
groundstate
firstexcitedstate
higher excitedstates
ionizationpotential
E1
ener
gy
0 eV E0
non-resonant ionization
excitation ofauto-ionizing states
field ionization ofRydberg-states
extractionfield
Principles of Resonance IonizationPrinciples of Resonance Ionization
Y. Kudryavtsev,- NIM B179 (2001) 412M. Facina,- NIM B224 (2004) 401M. Setwz,- PRL 90 (2003) 163002
![Page 20: Laser spectroscopy on nuclear ground states for …seminar/Lecture/Aysto/5. Optical...Laser spectroscopy on nuclear ground states for charge radii and moments. Some new developments](https://reader035.vdocuments.net/reader035/viewer/2022063017/5f085a0c7e708231d4219522/html5/thumbnails/20.jpg)
0 2 4 6 8 10 12
270
300
330
360
390
Mea
n T
OF
/ µ
s
νc - 1300610 / Hz
��
�
16%
4%
80%
Intensity ratio:
normalized to the area
Unambiguous state assignment!ωc = � B
qm
R ≈≈≈≈ 1·107, δδδδm/m ≈≈≈≈ 4 ·10-8
ME of ground state is 240 keV higher than literature value!
270
300
330
360
390
Mea
n T
OF
/ µ
s
270
300
330
360
390
Mea
n T
OF
/ µ
s
�
�
�
with cleaning of 6– state
⇒⇒⇒⇒ (6–) state = gs
⇒⇒⇒⇒ (3–) state = 1 st is.
⇒⇒⇒⇒ 1+ state = 2 nd is.
101(3) keV101(3) keV
242(3) keV242(3) keV
J. Van Roosbroeck et al., Phys. Rev. Lett. 92, 112501 (2004).
Example on RILIS: Triple Isomerism in 70Cu (RILIS & ISOLTRAP)
![Page 21: Laser spectroscopy on nuclear ground states for …seminar/Lecture/Aysto/5. Optical...Laser spectroscopy on nuclear ground states for charge radii and moments. Some new developments](https://reader035.vdocuments.net/reader035/viewer/2022063017/5f085a0c7e708231d4219522/html5/thumbnails/21.jpg)
Fast Universal Resonant laser IOn SourceFast Universal Resonant laser IOn Source
Ti:Sapphire lasers pumpedby Nd:YAG (12 kHz)
Pulsed dye lasers,pumped by CVL (12 kHz)or by 50 Hz Nd:YAG
I.D. Moore, J. Phys. G 31 (2005) S1499
CW dye lasers
Full spectral coverage at a range of repetition rates,linewidths and powers….
Laser development forapplications of in-sourcespectroscopy
![Page 22: Laser spectroscopy on nuclear ground states for …seminar/Lecture/Aysto/5. Optical...Laser spectroscopy on nuclear ground states for charge radii and moments. Some new developments](https://reader035.vdocuments.net/reader035/viewer/2022063017/5f085a0c7e708231d4219522/html5/thumbnails/22.jpg)
A laser ion guide for heavy-ion fusion evaporation reactionsA laser ion guide for heavy-ion fusion evaporation reactions
![Page 23: Laser spectroscopy on nuclear ground states for …seminar/Lecture/Aysto/5. Optical...Laser spectroscopy on nuclear ground states for charge radii and moments. Some new developments](https://reader035.vdocuments.net/reader035/viewer/2022063017/5f085a0c7e708231d4219522/html5/thumbnails/23.jpg)
A laser ion guide for heavy-ion fusion evaporation reactionsA laser ion guide for heavy-ion fusion evaporation reactions
![Page 24: Laser spectroscopy on nuclear ground states for …seminar/Lecture/Aysto/5. Optical...Laser spectroscopy on nuclear ground states for charge radii and moments. Some new developments](https://reader035.vdocuments.net/reader035/viewer/2022063017/5f085a0c7e708231d4219522/html5/thumbnails/24.jpg)
Laser ion source trap technique at IGISOLLaser ion source trap technique at IGISOL
I.D. Moore et al., AIP Conference Proceedings Series, 831 (2006) 511.
![Page 25: Laser spectroscopy on nuclear ground states for …seminar/Lecture/Aysto/5. Optical...Laser spectroscopy on nuclear ground states for charge radii and moments. Some new developments](https://reader035.vdocuments.net/reader035/viewer/2022063017/5f085a0c7e708231d4219522/html5/thumbnails/25.jpg)
Laser spectroscopyat the dripline
Isotopes with smallproduction rates atISOL facilities
Heavy neutron richisotopes
Next generation on-line facilities, SLOWRI at RIKEN and LASPEC at GSI.Much of the work can still be done at present facilities, eg at IGISOL, JYFL.Next generation on-line facilities, SLOWRI at RIKEN and LASPEC at GSI.Much of the work can still be done at present facilities, eg at IGISOL, JYFL.