1 Decay Scheme. 2 Nuclear Data. 2.1 Electron Capture Transitions. 2.2 Gamma Transitions and Internal Conversion Coefficients

Σχετικά έγγραφα
1 Decay Scheme. 2 Nuclear Data. 2.1 α Transitions

1 Decay Scheme. 2 Nuclear Data. 2.1 Electron Capture Transitions. 2.2 β Transitions

1 Decay Scheme. 2 Nuclear Data. 2.1 Electron Capture Transitions

1 Decay Scheme. 2 Nuclear Data. 2.1 β Transitions

1 Decay Scheme. 2 Nuclear Data. 236m. 2.1 Electron Capture Transitions. 2.2 β Transitions

1 Decay Scheme. 2 Nuclear Data. 2.1 β Transitions. 2.2 Gamma Transitions and Internal Conversion Coefficients

1 Decay Scheme. 2 Nuclear Data. 2.1 α Transitions

1 Decay Scheme. 2 Nuclear Data. 2.1 β + Transitions. 2.2 Electron Capture Transitions

1 Decay Scheme. 2 Nuclear Data. 2.1 β Transitions

1 Decay Scheme. 2 Nuclear Data. 2.1 α Transitions

1 Decay Scheme. 2 Nuclear Data. 2.1 α Transitions

1 Decay Scheme. 2 Nuclear Data. 2.1 Electron Capture Transitions. 2.2 Gamma Transitions and Internal Conversion Coefficients

1 Decay Scheme. 2 Nuclear Data. 2.1 Electron Capture Transitions. 2.2 Gamma Transitions and Internal Conversion Coefficients

1 Decay Scheme. 2 Nuclear Data. 2.1 β Transitions

1 Decay Scheme. 2 Nuclear Data. 2.1 α Transitions

1 Decay Scheme. 2 Nuclear Data. 2.1 Electron Capture Transitions. 2.2 Gamma Transitions and Internal Conversion Coefficients

1 Decay Scheme. 2 Nuclear Data. 2.1 Electron Capture Transitions. 2.2 Gamma Transitions and Internal Conversion Coefficients

1 Decay Scheme. 2 Nuclear Data. 2.1 β Transitions. 2.2 Gamma Transitions and Internal Conversion Coefficients

1 Decay Scheme. 2 Nuclear Data. 2.1 α Transitions

1 Decay Scheme. 2 Nuclear Data. 2.1 α Transitions

1 Decay Scheme. 2 Nuclear Data. 2.1 β Transitions

1 Decay Scheme. 2 Nuclear Data. 2.1 Electron Capture Transitions. 2.2 β + Transitions

1 Decay Scheme. 2 Nuclear Data. 2.1 Electron Capture Transitions

1 Decay Scheme. 2 Nuclear Data. 2.1 Electron Capture Transitions

1 Decay Scheme. 2 Nuclear Data. 2.1 α Transitions

1 Decay Scheme. 2 Nuclear Data. 2.1 α Transitions

1 Decay Scheme. 2 Nuclear Data. 2.1 α Transitions

1 Decay Scheme. 2 Nuclear Data. 2.1 α Transitions

1 Decay Scheme. 2 Nuclear Data. 2.1 Electron Capture Transitions. 2.2 Gamma Transitions and Internal Conversion Coefficients

Th, Ra, Rn, Po, Pb, Bi, & Tl K x-rays. Rn Kα1. Rn Kα2. 93( 227 Th)/Rn Kβ3. Ra Kα2. Po Kα2 /Bi K α1 79( 227 Th)/Po Kα1. Ra Kα1 /Bi K β1.

1 Decay Scheme. 2 Nuclear Data. 2.1 β Transitions

5.7. TABLE OF PHYSICAL CHARACTERISTICS OF RADIONUCLIDES MENTIONED IN THE EUROPEAN PHARMACOPOEIA

Engineering Tunable Single and Dual Optical. Emission from Ru(II)-Polypyridyl Complexes. Through Excited State Design

2.1

(1) Describe the process by which mercury atoms become excited in a fluorescent tube (3)

RAPPORT CEA-R-6201 MARIE-MARTINE BÉ, CHRISTOPHE DULIEU, VANESSA CHISTÉ. "NUCLÉIDE-LARA - Bibliothèque des émissions alpha, X et gamma"

NUCLEAR WALLET CARDS

Bookmark and Index Summary

Fused Bis-Benzothiadiazoles as Electron Acceptors

Laboratory Studies on the Irradiation of Solid Ethane Analog Ices and Implications to Titan s Chemistry

Electronic Supplementary Information:

MSWD = 1.06, probability = 0.39

Computational study of the structure, UV-vis absorption spectra and conductivity of biphenylene-based polymers and their boron nitride analogues

By R.L. Snyder (Revised March 24, 2005)

DuPont Suva 95 Refrigerant

Parts Manual. Trio Mobile Surgery Platform. Model 1033

([28] Bao-Feng Feng (UTP-TX), ( ), [20], [16], [24]. 1 ([3], [17]) p t = 1 2 κ2 T + κ s N -259-

X g 1990 g PSRB

DuPont Suva. DuPont. Thermodynamic Properties of. Refrigerant (R-410A) Technical Information. refrigerants T-410A ENG

!"#$%#&'()$*+$&#'',#-*./&*.&$0-1./& 1'2+#"&3,"4$&(*/(,-&0(#.&56 78 &9:+% 7

PHYA1 (JAN13PHYA101) General Certificate of Education Advanced Subsidiary Examination January Particles, Quantum Phenomena and Electricity TOTAL

Computer No.53 (1992) IBM 650. Bacon TSS JRR-2.[1] free inductin decay IBM 7044 FACOM

ˆ ˆŠ Œ ˆ ˆ Œ ƒ Ÿ Ä É ³μ μ μé ³ ±μ²² μ Í LHCb ˆ É ÉÊÉ Ë ± Ò μ± Ì Ô Í μ ²Ó μ μ ² μ É ²Ó ±μ μ Í É ŠÊ Î Éμ ± É ÉÊÉ, μé μ, μ Ö

NUCLEAR WALLET CARDS

ΒΙΟΓΡΑΦΙΚΟ ΣΗΜΕΙΩΜΑ. Μιχελακάκης Ηλίας Michelakakis Elias Εμμανουήλ.

S

Supplementary Material

Nuclear Physics 5. Name: Date: 8 (1)

Supporting Information

ˆ ˆˆ Œˆ C Z =47 50 Œ Œ ˆ ˆ Œ ˆ 23 ŒÔ

E#ects of Drying on Bacterial Activity and Iron Formation in Acid Sulfate Soils

ΖΕΡΔΑΛΗΣ ΣΩΤΗΡΙΟΣ ΤΟ ΟΥΤΙ ΣΤΗ ΒΕΡΟΙΑ (1922-ΣΗΜΕΡΑ) ΘΕΣΣΑΛΟΝΙΚΗ

DuPont Suva 95 Refrigerant

Nuclear Data Sheets for A = 110 *

Physique des réacteurs à eau lourde ou légère en cycle thorium : étude par simulation des performances de conversion et de sûreté

Supporting Information

Electronic Supplementary Information (ESI)

NIVEAUX C1&C2 sur l échelle proposée par le Conseil de l Europe

Nuclear Data Sheets for A = 102

ΓΕΝΙΚΟΙ ΠΙΝΑΚΕΣ - TABLEAUX GENERAUX - GENERAL REPORTS

P Œ ²μ, ƒ.. μ ±μ,. ˆ. ˆ μ, Œ.. ƒê Éμ,. ƒ. ²μ,.. ³ É. ˆŒ ˆ Š ƒ Œ ˆ Ÿ ˆŸ 238 Uˆ 237 U, Œ ƒ Ÿ Š ˆˆ 238 U(γ,n) 237 U.

LUO, Hong2Qun LIU, Shao2Pu Ξ LI, Nian2Bing

Hours Monday Tuesday Wednesday Thursday Friday. Physics of Diagnostic Radiology. Physics of Diagnostic Radiology. Physics of Diagnostic Radiology

ˆŒ œ ƒ ƒ ˆ ˆŸ ˆ Š ˆ 137 Cs Š ˆ Œ.

Émergence des représentations perceptives de la parole : Des transformations verbales sensorielles à des éléments de modélisation computationnelle

P r s r r t. tr t. r P

Supporting Information: Expanding the Armory: Predicting and Tuning Covalent Warhead. Reactivity.

Supporting Information

Transformations d Arbres XML avec des Modèles Probabilistes pour l Annotation

A life-table metamodel to support management of data deficient species, exemplified in sturgeons and shads. Electronic Supplementary Material

ΔΗΜΟΤΙΚΕΣ ΕΚΛΟΓΕΣ 18/5/2014 ΑΚΥΡΑ

Lukasz STAWARZ. on Behalf of the Fermi LAT Collaboration.

Electronic structure and spectroscopy of HBr and HBr +

ΠΟΛΥ ΜΕΓΑΛΗ : ΜΕΓΑΛΗ : ΜΕΣΑΙΑ: ΜΙΚΡΗ

ACI sécurité informatique KAA (Key Authentification Ambient)

L p approach to free boundary problems of the Navier-Stokes equation

Trace gas emissions from soil ecosystems and their implications in the atmospheric environment

Supporting information. An unusual bifunctional Tb-MOF for highly sensing of Ba 2+ ions and remarkable selectivities of CO 2 /N 2 and CO 2 /CH 4

Electronic Supplementary Information DFT Characterization on the Mechanism of Water Splitting Catalyzed by Single-Ru-substituted Polyoxometalates

Derivation of Optical-Bloch Equations

Heavier chalcogenone complexes of bismuth(iii)trihalides: Potential catalysts for acylative cleavage of cyclic ethers. Supporting Information

ƒ Š ˆ Šˆ Š Œˆ Šˆ Š ˆŒ PAMELA ˆ AMS-02

«Βασικές Αρχές της SPECT και PET Απεικόνισης»

CE 530 Molecular Simulation

P Ë ³μ,.. μ μ³μ²μ,.. ŠμÎ μ,.. μ μ,.. Š μ. ˆ œ ˆ Š Œˆ ŠˆŒ ƒ Œ Ÿ ˆŸ Š ˆ ˆ -ˆ ˆŠ

Modèles de représentation multi-résolution pour le rendu photo-réaliste de matériaux complexes

P ƒ. μ μ², Œ.. ˆ μ,.. μ ± Î Š Ÿ ˆ Œ ˆŸ ˆ Ÿ Š ˆ. ² μ Ê ² μ Ò É Ì ± Ô± ³ É.

Manuscript submitted to the Journal of the American Society for Mass Spectrometry, September 2011.

SUPPLEMENTARY INFORMATION

Œ.. ² μ,.. Œ ²μ, ƒ.. μ ±μ,. Ô Ô ², Œ.. ƒê Éμ, Œ.. Œ ² μ *

Transcript:

1 Decay Scheme In- disintegrates by > 99.99% electron capture via the excited level of 416.6 in Cd- and by < 0.01% electron capture via the isomer level in Cd- (T 1/2 = 48.5 min) at 396.2. Transitions to the ground state and the excited level of 245.4 in Cd- have not been observed. L indium se désintègre par capture électronique (> 99,99%) vers le niveau excité de 416 et vers le niveau excité de 396 et de 48,5 min de période du cadmium. Aucune transition vers le niveau de 245 et le niveau fondamental n a été observée. 2 Nuclear Data T 1/2 ( In ) : 2,8049 (4) d Q ( In ) : 861,8 (46) 2.1 Electron Capture Transitions Probability Nature lg ft P K P L P M 100 ɛ 0,3 445 (5) 99,995 (5) Allowed 5 0,8518 (2) 0,11835 (13) 0,02989 (4) ɛ 0,2 466 (5) 0,005 (5) 1st Forbidden 9 0,8524 (2) 0,1179 (2) 0,02975 (4) 2.2 Gamma Transitions and Internal Conversion Coefficients P γce Multipolarity α K α L α M α T 100 γ 2,1(Cd) 150,81 (3) 0,005 (5) E3 1,45 (3) 0,673 (14) 0,137 (3) 2,28 (5) γ 3,1(Cd) 171,28 (3) 99,995 (5) M1 2 % E2 0,0897 (22) 0,0113 (3) 0,00217 (5) 0,1036 (24) γ 1,0(Cd) 245,35 (4) 100 E2 0,0524 (10) 0,00818 (16) 0,00159 (3) 0,0625 (7) KRI /V.P. Chechev 1 29/09/1998 26/4/2006

3 Atomic Data 3.1 Cd ω K : 0,842 (4) ω L : 0,0632 (16) n KL : 0,953 (4) 3.1.1 X Radiations Relative probability K Kα 2 22,9843 53,17 Kα 1 23,1739 100 Kβ 3 26,0615 } Kβ 1 26,0958 } Kβ 5 26,304 } 27,9 Kβ 2 26,644 } Kβ 4 26,7106 } 5,1 L Ll 2,77 Lα 3,127 3,134 Lη 2,957 Lβ 3,316 3,528 Lγ 3,718 3,95 3.1.2 Auger Electrons Relative probability Auger K KLL 18,675 19,636 100 KLX 21,923 23,172 43 KXY 25,171 26,028 4,63 Auger L 3,404 3,804 KRI /V.P. Chechev 2 29/09/1998 26/4/2006

4 Electron Emissions Electrons per 100 disint. e AL (Cd) 3,404-3,804 100,5 (8) e AK (Cd) 15,5 (4) KLL 18,675-19,636 } KLX 21,923-23,172 } KXY 25,171-26,028 } ec 3,1 K (Cd) 144,57 (3) 8,13 (20) ec 3,1 L (Cd) 167,3-167,7 1,02 (3) ec 3,1 M (Cd) 170,51-170,88 0,197 (5) ec 1,0 K (Cd) 218,64 (4) 4,93 (10) ec 1,0 L (Cd) 241,33-241,81 0,770 (15) ec 1,0 M (Cd) 244,58-244,95 0,150 (3) 5 Photon Emissions 5.1 X-Ray Emissions Photons per 100 disint. XL (Cd) 2,77 3,95 6,78 (14) XKα 2 (Cd) 22,9843 23,65 (18) } Kα XKα 1 (Cd) 23,1739 44,47 (26) } XKβ 3 (Cd) 26,0615 } XKβ 1 (Cd) 26,0958 } 12,40 (14) K β 1 XKβ 5 (Cd) 26,304 } XKβ 2 (Cd) 26,644 } XKβ 4 (Cd) 26,7106 } 2,26 (7) K β 2 5.2 Gamma Emissions Photons per 100 disint. γ 2,1 (Cd) 150,81 (3) 0,0015 (15) γ 3,1 (Cd) 171,28 (3) 90,61 (20) γ 1,0 (Cd) 245,35 (4) 94,12 (6) KRI /V.P. Chechev 3 29/09/1998 26/4/2006

6 Main Production Modes { Cd 112(p,2n)In Possible impurities : none { Cd (p,n)in Possible impurities : In 114m 7 References - M. L. Wiedenbeck. Phys. Rev. 67 (1945) 92 (Half-life(Cd-m).) - N. Hole. Arkiv. Mat. Astron. Fysik 36A (1948) N09 (Half-life(Cd-m).) - A. S. Helmholz, R. W. Hayward, C. L. McGinnis. Phys. Rev. 75 (1949) 1469A (Half-life(Cd-m), Half-life(In-).) - C. L. McGinnis. Phys. Rev. 81 (1951) 734 (Half-life(Cd-m), Electron and gamma-ray energies and probabilities.) - R. H. Steffen. Phys. Rev. 103 (1956) 116 (Mixing Ratio (E2/M1) of gamma (3,1) transition.) - A. Maier. Helv. Phys. Acta 30 (1957) 611 - P. Sparrman, A. Marrelius, T. Sundstrom, H. Petterson. Z. Phys. B192 (1966) 439 (Gamma-ray energies and emission probabilities, ICC.) - J. A. Bearden. Rev. Mod. Phys. 39 (1967) 78 (X-ray energies.) - P. Bornemisza-Pauspertl, J. Karolyi, G. Peto. ATOMKI Kozlemen 10 (1968) 112 (Half-life(Cd-m).) - H. Liskien. Nucl. Phys. A118 (1968) 379 - F. Smend, W. Weirauch, W.-D. Schmidt-Ott. Z. Phys. 214 (1968) 437 - S. E. Gureev, T. Islamov, V. S. Usachenko. Izv. Akad. Nauk. SSSR. Ser. Fiz.- Uzb. Mat. 1 (1972) 87 - R. A. Meyer, J. H. Landrum. Bull. Amer. Phys. Soc. 17 (1972) 906 (Electron capture probability(0,2).) - J. F. Emery et al. Nucl. Sci. Eng. 48 (1972) 319 - C. Budz-Jorgensen. Phys. Rev. B8 (1973) 5411 (Mixing Ratio (E2/M1) of gamma (3,1) transition.) - B. P. Pathak, S. K. Mukherjee. Radiochem. Radioanal. Letters 15 (1973) 187 (T ICC of gamma (2,1) transition.) - W. Kreische, W. Lampert. Z. Phys. 266 (1974) 51 (Mixing Ratio (E2/M1) of gamma (3,1) transition.) - R. L. Heath. ANCR-1000-2 (1974) (Gamma-ray energies and emission probabilities.) - G. A. Shevelev, A. T. Troytskaya, V. M. Kartashov. Izv. Akad. Nauk. SSSR. Ser. Fiz. 39 (1975) 2038 (Gamma-ray energies and emission probabilities, ICC.) - F. P. Larkins. At. Data Nucl. Data Tables 20 (1977) 313 (Auger electrons energies.) - F. Rösel, H. M. Fries, K. Alder, H. C. Pauli. At. Data Nucl. Data Tables 21 (1978) 92 (Theoretical ICC.) - F. Lagoutine, J. Legrand, C. Bac. Int. J. Appl. Radiat. Isotop. 29 (1978) 269 - H. Houtermans, O. Milosevic, F. Reichel. Int. J. Appl. Radiat. Isotop. 31 (1980) 153 KRI /V.P. Chechev 4 29/09/1998 26/4/2006

- D. D. Hoppes et al.. NBS-Special publication 626 (1982) 85 - K. F. Walz, K. Debertin, H. Schrader. Int. J. Appl. Radiat. Isotop. 34 (1983) 1191 - Y. Kawada, Y. Hino. Nucl. Instrum. Methods A241 (1985) 199 (T ICC.) - A. R. Rutledge, L. V. Smith, J. S. Merritt. Int. J. Appl. Radiat. Isotop. 37 (1986) 1029 - Zs. Nemeth, L. Lakosi, I. Pavlicsek, A. Veres. Int. J. Appl. Radiat. Isotop. 38 (1987) 63 (Half-life(Cd-m).) - M. P. Unterweger, D. D. Hoppes, F. J. Schima. Nucl. Instrum. Methods Phys. Res. A312 (1992) 349 - S.F. Kafala, T.D. MacMahon, P.W. Gray. Nucl. Instrum. Methods Phys. Res. A339 (1994) 151 (Evaluation technique.) - E. Schönfeld, H. Janssen. Nucl. Instrum. Methods Phys. Res. A369 (1996) 527 (Atomic data.) - Xiao-qiong Wen et al.. Nucl. Instrum. Methods Phys. Res. A379 (1997) 478 (Half-life(Cd-m).) - B. Singh, J.L. Rodriguez, S.S. Wong, J.K. Tuli. Nucl. Data Sheets 84 (1998) 487 (lg ft.) - M.-M. Bé, B. Duchemin, J. Lame, C. Morillon, F. Piton, E. Browne, V. Chechev, R. Helmer, E. Schönfeld. Table de Radionucleide, CEA-ISBN 2-7272-0200-8 (1999) (In- decay data evaluation - 1998.) - J. Blachot. Nucl. Data Sheets 100 (2003) 179 (Cd- level scheme and energies.) - G. Audi, A. N. Wapstra. Nucl. Phys. A729 (2003) 337 (Q.) - H. Schrader. Appl. Rad. Isotopes 60 (2004) 317 - E.A. Yakushev et al.. Appl. Rad. Isotopes 62 (2005) 451 (Auger electrons.) - S. Raman, M. Ertugrul, C.W. Nestor Jr., M.B. Trzhaskovskaya. At. Data. Nucl. Data Tables 92 (2006) 207 (Theoretical ICC.) KRI /V.P. Chechev 5 29/09/1998 26/4/2006

LNE-LNHB/CEA - Table de Radionucléides In 49 62 γ Emission intensities per 100 disintegrations 0 ε In 49 62 9/2 ; 0 2,8049 (4) d 48,50 min 3 2 1 9 0,6 0,00 1 5 7/2 ; 416,6 11/2 - ; 396,15 99,995 0,005 1 2 9 4,1 5/2 ; 245,4 Stable 0 Cd 48 63 Q = 861,8 % ε = 100 1/2 ; 0 KRI / V.P. Chechev Scheme page : 1/1 29/09/1998-10/04/2006

2025 © DocPlayer.gr Πολιτική Απορρήτου | Όροι Χρήσης | Σχόλια