L - X-Ray Data Booklet - Lawrence Berkeley National Laboratory

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Table 1-2. Energies of x-ray emission lines (continued). Element Kα 1 Kα 2 Kβ 1 Lα 1 Lα 2 Lβ 1 Lβ 2 Lγ 1 Mα 1 63 Eu 41,542.2 40,901.9 47,037.9 5,845.7 5,816.6 6,456.4 6,843.2 7,480.3 1,131 64 Gd 42,996.2 42,308.9 48,697 6,057.2 6,025.0 6,713.2 7,102.8 7,785.8 1,185 65 Tb 44,481.6 43,744.1 50,382 6,272.8 6,238.0 6,978 7,366.7 8,102 1,240 66 Dy 45,998.4 45,207.8 52,119 6,495.2 6,457.7 7,247.7 7,635.7 8,418.8 1,293 67 Ho 47,546.7 46,699.7 53,877 6,719.8 6,679.5 7,525.3 7,911 8,747 1,348 68 Er 49,127.7 48,221.1 55,681 6,948.7 6,905.0 7,810.9 8,189.0 9,089 1,406 69 Tm 50,741.6 49,772.6 57,517 7,179.9 7,133.1 8,101 8,468 9,426 1,462 70 Yb 52,388.9 51,354.0 59,370 7,415.6 7,367.3 8,401.8 8,758.8 9,780.1 1,521.4 71 Lu 54,069.8 52,965.0 61,283 7,655.5 7,604.9 8,709.0 9,048.9 10,143.4 1,581.3 72 Hf 55,790.2 54,611.4 63,234 7,899.0 7,844.6 9,022.7 9,347.3 10,515.8 1,644.6 73 Ta 57,532 56,277 65,223 8,146.1 8,087.9 9,343.1 9,651.8 10,895.2 1,710 74 W 59,318.24 57,981.7 67,244.3 8,397.6 8,335.2 9,672.35 9,961.5 11,285.9 1,775.4 75 Re 61,140.3 59,717.9 69,310 8,652.5 8,586.2 10,010.0 10,275.2 11,685.4 1,842.5 76 Os 63,000.5 61,486.7 71,413 8,911.7 8,841.0 10,355.3 10,598.5 12,095.3 1,910.2 77 Ir 64,895.6 63,286.7 73,560.8 9,175.1 9,099.5 10,708.3 10,920.3 12,512.6 1,979.9 78 Pt 66,832 65,112 75,748 9,442.3 9,361.8 11,070.7 11,250.5 12,942.0 2,050.5 79 Au 68,803.7 66,989.5 77,984 9,713.3 9,628.0 11,442.3 11,584.7 13,381.7 2,122.9 80 Hg 70,819 68,895 80,253 9,988.8 9,897.6 11,822.6 11,924.1 13,830.1 2,195.3 81 Tl 72,871.5 70,831.9 82,576 10,268.5 10,172.8 12,213.3 12,271.5 14,291.5 2,270.6
82 Pb 74,969.4 72,804.2 84,936 10,551.5 10,449.5 12,613.7 12,622.6 14,764.4 2,345.5 83 Bi 77,107.9 74,814.8 87,343 10,838.8 10,730.91 13,023.5 12,979.9 15,247.7 2,422.6 84 Po 79,290 76,862 89,800 11,130.8 11,015.8 13,447 13,340.4 15,744 — 85 At 81,520 78,950 92,300 11,426.8 11,304.8 13,876 — 16,251 — 86 Rn 83,780 81,070 94,870 11,727.0 11,597.9 14,316 — 16,770 — 87 Fr 86,100 83,230 97,470 12,031.3 11,895.0 14,770 14,450 17,303 — 88 Ra 88,470 85,430 100,130 12,339.7 12,196.2 15,235.8 14,841.4 17,849 — 89 Ac 90,884 87,670 102,850 12,652.0 12,500.8 15,713 — 18,408 — 90 Th 93,350 89,953 105,609 12,968.7 12,809.6 16,202.2 15,623.7 18,982.5 2,996.1 91 Pa 95,868 92,287 108,427 13,290.7 13,122.2 16,702 16,024 19,568 3,082.3 92 U 98,439 94,665 111,300 13,614.7 13,438.8 17,220.0 16,428.3 20,167.1 3,170.8 93 Np — — — 13,944.1 13,759.7 17,750.2 16,840.0 20,784.8 — 94 Pu — — — 14,278.6 14,084.2 18,293.7 17,255.3 21,417.3 — 95 Am — — — 14,617.2 14,411.9 18,852.0 17,676.5 22,065.2 —
Page 1 and 2: X-Ray Data Booklet X-RAY DATA BOOKL
Page 3 and 4: X-Ray Data Booklet Physical Constan
Page 5 and 6: C E N T E R F O R X - R A Y O P T I
Page 7 and 8: 3. Scattering Processes 3-1 3.1 Sca
Page 9 and 10: Data Booklet Authors X-Ray Data Boo
Page 11 and 12: Data Booklet Authors http://xdb.lbl
Page 13 and 14: 1 X-Ray Data Booklet Section 1.1 EL
Page 15 and 16: Table 1-1. Electron binding energie
Page 21 and 22: Table 1-2 Table 1-1. Electron bindi
Page 23 and 24: Table 1-2 28 Ni 8333 1008.6† 870.
Page 27 and 28: Table 1-2 51 Sb 33.3† 32.1† 52
Page 31 and 32: Table 1-2 75 Re 273.9† 260.5† 4
Page 33 and 34: 1 X-Ray Data Booklet Section 1.2 X-
Page 35 and 36: X-Ray Data Booklet Table 1-2. Photo
Page 37: 41 Nb 16,615.1 16,521.0 18,622.5 2,
Page 41 and 42: Table 1-3. Energies and intensities
Page 45 and 46: Energy (eV) Element Line Table 1-3.
Page 51 and 52: Energy (eV) Element Line Table 1-3.
Page 53 and 54: 1 X-Ray Data Booklet Section 1.3 FL
Page 55 and 56: 1 X-Ray Data Booklet Section 1.4 PR
Page 57 and 58: 1 X-Ray Data Booklet Section 1.5 SU
Page 59 and 60: 1 Fig. 1-4. Subshell photoemission
Page 61 and 62: 1 Fig. 1-4. Subshell photoemission
Page 63 and 64: X-Ray Data Booklet Section 1.5 SUBS
Page 65 and 66: 10 1 0.1 Nitrogen (N) Z = 7 Total 1
Page 67 and 68: 10 1 0.1 3p Nickel (Ni) Z = 28 Tota
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Page 71 and 72: 10 6 Nitrogen (N) 10 4 10 2 10 0 10
Page 73 and 74: 10 6 Nickel (Ni) 10 4 10 2 10 0 10
Page 75 and 76: X-Ray Data Booklet Section 1.7 ATOM
Page 77 and 78: 8 Oxygen (O) 12 Aluminum (Al) f 1 4
Page 79 and 80: 60 40 Ruthenium (Ru) 80 Tungsten (W
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Table 1-4. Ionization energies, in
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X-ray_Elements http://xdb.lbl.gov/S
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Test Electron Binding Energies in e
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Lithium | CXRO | ALS | Please send
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Lithium | CXRO | ALS | Please send
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Boron | CXRO | ALS | Please send qu
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Carbon | CXRO | ALS | Please send q
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Nitrogen Please send questions or c
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Nitrogen Please send questions or c
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Fluorine Please send questions or c
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Sodium Electron Binding Energies in
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Magnesium Electron Binding Energies
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Aluminium Electron Binding Energies
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Silicon Electron Binding Energies i
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Silicon Electron Binding Energies i
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Sulfur Electron Binding Energies in
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Chlorine Electron Binding Energies
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Argon Electron Binding Energies in
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Potassium Electron Binding Energies
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Calcium Electron Binding Energies i
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Scandium Electron Binding Energies
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Titanium Electron Binding Energies
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Vanadium Electron Binding Energies
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Chromium Electron Binding Energies
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Manganese Electron Binding Energies
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Iron Electron Binding Energies in e
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http://xdb.lbl.gov/Section1/Periodi
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Fe Electron Binding Energies in ele
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Fe Electron Binding Energies in ele
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Gallium Electron Binding Energies i
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Arsenic Electron Binding Energies i
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Krypton Electron Binding Energies i
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Rubidium Electron Binding Energies
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Strontium Electron Binding Energies
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Yttrium Electron Binding Energies i
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Zirconium Electron Binding Energies
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Niobium Electron Binding Energies i
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Molybdenum Electron Binding Energie
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Technetium Electron Binding Energie
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Ruthenium Electron Binding Energies
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Rhodium Electron Binding Energies i
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Palladium Electron Binding Energies
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Silver Electron Binding Energies in
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Cadmium Electron Binding Energies i
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Indium Electron Binding Energies in
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Tin Electron Binding Energies in el
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Antimony Electron Binding Energies
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Tellurium Electron Binding Energies
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Iodine Electron Binding Energies in
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Xenon Electron Binding Energies in
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Hafnium Electron Binding Energies i
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Tantalum Electron Binding Energies
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Rhenium Electron Binding Energies i
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Osmium Electron Binding Energies in
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Iridium Electron Binding Energies i
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Mercury Electron Binding Energies i
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Thallium Electron Binding Energies
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Radon Electron Binding Energies in
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Actinium Electron Binding Energies
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Rutherfordium Electron Binding Ener
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Meitnerium Electron Binding Energie
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Cerium Electron Binding Energies in
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Praseodymium Electron Binding Energ
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Neodymium Electron Binding Energies
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Promethium Electron Binding Energie
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Samarium Electron Binding Energies
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Europium Electron Binding Energies
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Gadolinium Electron Binding Energie
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Terbium Electron Binding Energies i
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Dysprosium Electron Binding Energie
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Holmium Electron Binding Energies i
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Erbium Electron Binding Energies in
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Thulium Electron Binding Energies i
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Ytterbium Electron Binding Energies
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Lutetium Electron Binding Energies
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Thallium Electron Binding Energies
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Protactinium Electron Binding Energ
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Plutonium Electron Binding Energies
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Americium Electron Binding Energies
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Curium Electron Binding Energies in
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Berkelium Electron Binding Energies
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Fermium Electron Configuration = [R
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Nobelium Electron Configuration = [
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Uranium Electron Binding Energies i
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Neptunium Electron Binding Energies
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X-Ray Data Booklet Order Form X-Ray
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SECTION 2 X-Ray Data Booklet Sectio
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SECTION 2 In practical units [photo
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SECTION 2 Fig. 2-2. Normalized inte
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SECTION 2 wiggler. B.1 Wiggler radi
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SECTION 2 Here, the J’s are Besse
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SECTION 2 Fig. 2-5. The angular dis
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SECTION 2 (18) where Z 0 = 377 ohms
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SECTION 2 Fig. 2-7. The angular fun
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SECTION 2 and where the single-elec
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SECTION 2 parameters as operating v
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History of Synchrotron Radiation So
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http://xdb.lbl.gov/Section2/Sec_2-3
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X-Ray Data Booklet Table 2-1. Stora
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Location Spain Barcelona Sweden Lun
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ScatteringProcess X-Ray Data Bookle
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ScatteringProcess where . The kinet
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ScatteringProcess (Springer-Verlag,
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Section 3-2 Electron Ranges in Matt
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Fig. 3-3. Plot of the CSDA range, a
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Fig. 3-4. Inelastic mean free paths
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Section 4. Optics 4. Optics Content
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SECTION 4 rays make a small angle (
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SECTION 4 and can be found at the w
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SECTION 4 are called gratings and a
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SECTION 4 8 α-Quartz, silicon diox
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SECTION 4 28 Gypsum, calcium sulfat
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SECTION 4 44 Ammonium () 8.80 (CHOH
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SECTION 4 59 Rubidium hydrogen phth
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normally requires modeling or simul
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1.0 0.8 d = 4.5 nm Γ = 0.4 Reflect
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Table 4-1. Selected data for crysta
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Table 4-1. Selected data for crysta
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4 X-Ray Data Booklet Section 4.2 Sp
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4 Fig. 4-4. Specular reflectivities
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4 = 12.41 g/cm 3 ), and gold (ρ =
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X-Ray Data Booklet Section 4.3 GRAT
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CD. Gratings with varied line spaci
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C 011 = - 1 r C 020 = S 2 C 022 = -
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C. DISPERSION PROPERTIES Dispersion
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2. H. A. Rowland, “On Concave Gra
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2 (II) FIXED IN AND OUT DIRECTIONS:
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4 Table 1: Ellipse coefficients Q i
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6 *Table 3: Coefficients C ijk of t
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8 B.3 Calculation of ray aberration
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10 R ⎧ h 2 E0 P P 4 1 2 1 4 = + (
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34. Welford, W. T., Aberrations of
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4 set of zone plate-defining parame
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4 Fig. 4-8. A Fresnel zone plate le
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X-Ray Data Booklet Section 4.5 X-RA
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B. GAS PROPORTIONAL COUNTERS Gas pr
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Finally, photographic film is also
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Table 5-1 X-Ray Data Booklet Sectio
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Table 5-1 molar volume, ideal gas a
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Table 5-1. Physical constants(conti
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Table 5-2 7 14.00674 0.808 -210.00
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Table 5-2 1 S 0 14.000 0.248 S 0 5.
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Table 5-2 63 Europium 151.964 5.244
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Table 5-2 89 Actinium (227) — 105
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X-Ray Data Booklet Table 5-2. Prope
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Table 5-2. Properties of the elemen
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X-Ray Data Booklet Section 5.3 ELEC
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Motion of charged particles in a un
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Table 5-3. Radiation weighting fact
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General X-Ray Formulas Wavelength a
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Snell’s law: sin φ ′ = sin φ
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Refractive index of plasma is √ n
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Spatially coherent power available
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Lithography Minimum printable line
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