synthesis of superheavy elementsnewuc.jinr.ru/img_sections/file/practice2016/eu/2016-07...
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Synthesis of superheavy
elements
Dr. Andrey G. Popeko
Flerov Laboratory of Nuclear Reactions,
Joint Institute for Nuclear Research
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Basic directions of researches at FLNR
1. Heavy and superheavy nuclei
Synthesis and study of properties of superheavy elements
Chemistry of new elements
Fusion-fission and multi-nucleon transfer reactions
Mass-spectrometry and nuclear spectroscopy of SH nuclei
2. Light exotic nuclei
Properties and structure of light exotic nuclei
Reactions with exotic nuclei
3. Radiation effects and physical bases of
nanotechnology
4. Accelerator technology
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OUTLINES
3
What are the SHE?
What do we know about SHE?
Targets and projectiles.
SHE – factory.
High-current cyclotron DC-280.
New facilities.
Light exotic nuclei.
Applied research.
Conclusions.
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Periodic table of the elements
Dmitri Mendeleev (1869)
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1934: search for transurane
238U + n → 239U* → 239Nn + e− + ν92 92 93
Otto Hahn und Lise Meitner
−
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Irradiation of targets
at HFIR reactor (Oak Ridge)
• Irradiation in the HFIR flux trap
– Thermal-neutron flux
of 2.5 1015 neutrons/cm²·s
– 31 target positions
(10–13 targets typically irradiated)
– Produces ~35 mg 252Cf per target
(smaller quantities of Bk, Es, Fm)
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R-process
Explosion 20 кT → 2·1024 fissions;
Nf = exp{n-1} → n = 56 → Т = 336 ns;
last 18 ns → 90 % of neutrons;
thermonuclear explosion: 50 ns;
total time: < 100 ns, total neutron flux: 1.2∙1024 n∙cm-2
But… collection efficiency 10-8 ÷ 10-9!
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Complete Fusion 92U + 7N → 99Es
instead of U+14n→7β→Es
Problems: cross-sections from 100 b → 1 pb, amount from 1000 kg → 1 mg
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99
Prehistory
• 1966: A. Sobiczewski, F.A. Gareev, B.N. Kalinkin:
next “magic numbers” are Z=114, N=184;
• 1966: V.M. Strutinsky; “shell correction” method;
• 1967: H.B. Meldner: next “magic numbers” are
Z=114, N=184.
Accuracy of predictions:
• Spontaneous fission half-life: T1/2 10±10 !!
• α-decay: T1/2 10±10 !!
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P. Fowler, Tracks of SHE!?
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Synthesis of SHE at accelerators
• 1971; Orsay, France; 232Th + 82Kr → 310126 + 4n;
σ4n < 0.5 mb !!!
• 1971; Dubna, SU; 208Pb + 70Zn → 276112 + 2n;
σ2n < 0.1 mb !!! (1996, GSI, Germany);
• 1971-1975; Dubna, SU; deep inelastic or fission
reactions of 76Ge, 136Xe + 238U;
• 1975; Dubna, SU; 48Ca + actinides:
48Ca-consumtion : 50 – 100 mg/h, 200 US$/mg;
Total amount: 5 g in SU, 5g in US.
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Shell corrections
Proton shell:
114 or/and 126, 120 ?
Neutron shell:
172 or/and 184 ?
N=184
N=184
Z=114
Z=126
Z=124Z=124
N=184
Z=126
N=184
Z=114
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Chart of the Nuclides (decay modes)
Neutrons
Pro
ton
s
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Theoretical predictions of position of SHE
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Artistic Chart of the Nuclides
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How to synthesize?
Beam
Target
Separator
Focal plane detector
Beam stop
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FLNR U400 cyclotron
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UNILAC (GSI)
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Target
materials
Producer Isotope
enrichment (%)
232Th ---- 100
233U RFNC ---
238U ---- 99.3
237Np IAR 99.3
239Pu RFNC ---
240Pu IAR/ORNL 99.98
242Pu RFNC/ORNL 99.98
244Pu ORNL 98.6
243Am IAR / ORNL 99.9
245Cm IAR 98.7
248Cm IAR /ORNL 97.4
249Bk ORNL ≥ 95
249Cf IAR/ORNL 97.3
249,250,251Cf ORNL (50+14+36)%
Projectiles 48Ca produced by
Heavy Ion Accelerator U400;
Energy: 235-250 MeV
(v ≈ 0.1 c);
Intensity: 1.0-1.5 pμA
(n×1012 ÷ 1013 1/s);
Consumption: 0.5-0.8 mg/h
Beam dose: (0.3-3.0)∙1019
Reactions of SynthesisReactions of Synthesis
Act. + 48Ca
Prices per 1 mg
197Au ≈ 0.045 US$natU3O8 ≈ 0.03 US$239Pu ≈ 4 US$
48Ca ≈ 80 US$249Cf ≈ 60,000 US$
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Superconducting 18 GHz ECR ion sources
DECRIS-SC1 DECRIS-SC2
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Isotope reactors
HFIR, ORNL, Oak Ridge, USA, 85 MW CM-3, IAR, Dimitrovgrad, RF, 100 MW
Isotope separator is necessary !
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22 mg of 249Bk, ≈ 1 M$, 1 year at HIFR ORNL
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Targets – radiation safety
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Dubna Gas Filled Recoil Separator
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Fusion reactions of
Pb and Bi-target nuclei 208 209
with projectiles A>50
152
156154
112
114
116
0.23 0.9 0.48
12 8.0 0.44 1.7 17
4.3 0.51 1.5
1.6
1.5 1.9
3.96.2 2.1 112112
56 s 27
pro
ton
nu
mb
er
150
neutron number
160
162
164 166 168 170 172 174 176 178 180 182
184
1 68158
0.1 0.190.18
2
18
0.45
1. 6
0.69 s
3.8
2.9
0.8 2.3
1.7 21
52Hs
Mt
Ds
Rg
BhSg
3
20
118
120
114
3.0 78
1.8
113
Fl
Cn
Lv
115
117
Z=118
0.61
Fusion reactions of
Actinide-target nuclei
with 48Ca projectiles
12
2015
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A/Z Setup Laboratory Publications
283112 SHIP GSI Darmstadt Eur. Phys. J. A 32, 251 (2007)
283112 COLD PSI-FLNR (JINR) NATURE 447, 72 (2007)
286, 287114 BGS LRNL (Berkeley) P.R. Lett. 103, 132502 (2009)
288, 289114 TASCA GSI – Mainz P.R. Lett. 104, 252701 (2010)
292, 293116 SHIP GSI Darmstadt Eur. Phys. J. A 48: 62 (2012)
287, 288115 TASCA GSI – Mainz P.R. Lett. 111, 112502 (2013)
294117 TASCA GSI-Mainz P.R. Lett. 112, 172501 (2014)
Confirmations (2007-2014)
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The Velocity Filter «SHIP»
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TransActiniden Separator und Chemie Apparatur (TASCA)
(GSI, Darmstadt)
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The Festive Naming Ceremony of the new chemical elements
114 - Flerovium and 116 - Livermorium
took place on 24 October 2012 in Moscow
29
William Goldstein (Livermore),
Yuri Oganessian (JINR) and
James Roberto (Oak Ridge)
IUPAC President Prof.
Kazuyuki Tatsumi
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30th December 2015:
Discovery of new elements with atomic numbers 115, 117,
and 118 is approved!
Priority for elements 115 and 117 is assigned to:
JINR (Dubna) - LLNL (California, USA) - ORNL (Oak
Ridge, USA) collaboration.
Priority for element 118 is assigned to:
JINR (Dubna) - LLNL (California, USA) collaboration.
International Union of Pure
and Applied Chemistry
The 7th period of the periodic table of elements is now complete!
114FlFlerovium
115(Mc)
116LvLivermorium
117(Ts)
118(Og)
113(Nh)
All the elements were synthesized for the first time at the U400 cyclotron of
the Flerov Laboratory of Nuclear Reactions of JINR.
(Nihonium) (Moscovium) (Tenessine) (Oganesson)
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D.I. Mendeleev’s Periodic Table of the Elements
(2015)
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GAS PHASE CHEMISTRY WITH
ELEMENTS 112 AND 114
• Are elements 112 and 114 volatile metals?
• How do relativistic effects influence the chemistry of E112 and of E114?
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Target (238U, 242Pu; 1 mg/cm2)
Beam (48Ca; 233-239 MeV)
Beam stop
SiO2-FilterTa metal850°C
Quartz column
Cryo On-line Detector (4p COLD)
Carrier gas He/Ar (70/30)
Capillary with 2 s transport time
(32 pairs PIN diodes, one side gold covered)
Hg Loop
Temperature gradient: 35°C to – 184 °C
T
l
Rn
Химия элементов 112 & 114
112
Recoil chamber
Quartz inlay
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Trend of sublimation enthalpy within
group 12
Element 112 is a noble metal – like Hg
room temperature
As predicted by Bernd Eichler, 1974 (!)
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That we have learnt:
SHE can be synthesized;
Chemistry of SHE can be studied;
We have only 12,000 hours beam time / year;
We need new facilities;
We have not enough experimental space;
We can not accelerate ions heavier than Xe;
Radiation safety requirements are strong;
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What to do further?
Complete fusion reactions:
Higher beam current;
More target material: 15 mg → 150 mg;
Heaviest target: 249Cf → Zmax= 118
↓
Heavier projectiles (50Ti, 54Cr, 58Fe, 64Ni …)
Heavier targets: 250Cm, 251Cf;
Exotic targets: 254Es, 257Fm -???;
Symmetric reactions:
136Xe+136Xe, 136Xe+150Nd, 150Nd+150Nd;
Reactions with RI.
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DC280-cyclotron – stand-alone SHE-factory
Synthesis and study of properties of
superheavy elements.
Search for new reactions for SHE-
synthesis.
Chemistry of new elements.
DC280 (expected)
E=4÷8 MeV/A
Ion Ion
energy
[MeV/A]
Output
intensity
7Li 4 1×1014
18O 8 1×1014
40Ar 5 6×1013
48Ca 5 0,6-1,2×1014
54Cr 5 2×1013
58Fe 5 1×1013
124Sn 5 2×1012
136Xe 5 1×1014
238U 7 5×1010
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Specialized high-current cyclotron DC280
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SHE-Factory (June, 2016)
39http://inflnr.jinr.ru/dc280.html
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10He: 2n-transfer8He 10He
p3H
2n
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Fragment-separator ACCULINNA-2: assembling and testing
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detailed study of effects induced by heavy ions in matter aimed at applications of
beams of accelerated ions in nanotechnology,
investigation of radiation resistance of materials under the influence of multi-
charged ions,
testing of microelectronic circuits for space technology,
development of next-generation of functional track membranes,
synthesis of nano-objects with unique properties for new applications,
development of hybrid nanotechnologies, combining methods of ion track
technology and coating, thin-layer, and surface modification technologies,
production of radioisotopes for nuclear medicine and radioecological studies with
γ-quanta, α-particle-, and heavy-ion beams;
Radiation-physical and radioisotope investigations
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Nano-structures
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New research instruments (the Nanotechnology Centre)
Two scanning electron microscopes (Hitachi SU8020 and SU3400) with a number of
options (microanalysis, catodoluminescence, etc)
Specialized equipment for sample preparation for SEM
Atomic force microscopy with various optical options
X Ray photoelectron spectroscopy (K-Alpha instrument)
Fourier-transform IR spectrophotometer
UV-Vis spectrophotometers
Specialized electronics for measurements on single nanopores: Axopatch 200B
Capillary flow porometer and other equipment for membrane testing
Versatile equipment for chemical lab, etc.
General view of the new laboratory
building (Centre of Nanotechnology) Centre of Nanotechnology, interior view
![Page 46: Synthesis of superheavy elementsnewuc.jinr.ru/img_sections/file/Practice2016/EU/2016-07 AGP_SHE.pdfSearch for new reactions for SHE-synthesis. Chemistry of new elements. DC280 (expected)](https://reader036.vdocument.in/reader036/viewer/2022071416/61133cc8bfac48375525b833/html5/thumbnails/46.jpg)
Full-scale realization off the DRIBs-III -project
DRIBs
MT25
U200
IC100
U400M &SC ECR
Nano/Lab
1500m2
1500m21000m2
DC-280 new
SHE
Factory
U400R
upgraded
Heavy &
Super heavy
Nuclear
spectroscopy
Light exotic nuclei &
Applied research
![Page 47: Synthesis of superheavy elementsnewuc.jinr.ru/img_sections/file/Practice2016/EU/2016-07 AGP_SHE.pdfSearch for new reactions for SHE-synthesis. Chemistry of new elements. DC280 (expected)](https://reader036.vdocument.in/reader036/viewer/2022071416/61133cc8bfac48375525b833/html5/thumbnails/47.jpg)
Flerov Laboratory of Nuclear Reactions (JINR)
THANK YOU
FOR YOUR
ATTENTION !