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- ゆきひら ながおか
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6 Fig.9Diagram of the instrument. (A)ultraviolet mono-chromator(b)mass analyser,(c)ion source 1.discharge lamp2.window and entrance slit,3.bellows for adjusting lamp 4.micrometers for adjusting entrance slit 5.light baffles 6.grating, 7.grating micrometer,8.pumping monochromator9.light lead for shutter, 10.micrometers for adjusting slits,11 `17.omission entrance 18. photoelectron suppressors19.exit slits,20.ionization chamber, 21.filament producing impact,22.light monitoring for ions by electron plate 23.gas inlet,24.ion gun. Fig.10Mass spectra of butadiene and propane obtained by photoionization and electron impact.16
7 Fig.11.Mass spectra of batadiene by photoionization (above) Mass spectra of mixture of NO,aceton and toluene by photoionization(below). Fig.12Mass Spectra of butane. upper:by electron impact,(70v and 8V), lowest:by photoionization.
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10 27, 1132(1957). V.L.Tal'voze and A.K.Lyu bimova,doklady 1)A.J.Dempster,Phys.Rev.,11,316(1918). W.Bleakney,Phys.Rev.,34,157(1929). A.O.Nier,Rev.Sci. Instrum.,11,212(1940). A.0.Nier,Rev.Sci.Instrum,18,378(1947). 2)F.P.Lossing 25,1031(1956). 3)R.F.K.Herzog Phys.,27,1202(1957). and I.Tanaka,J.Chem.Phys., and F.F.Marmo,J.Chem. R.F.K.Herzog and F.F.Marmo, gthe Thre shold of Space hp.124(1957). 4)E.Schonheit,Z.Physik,149,153(1957). 5)H.Hurzeler,M.G.Inghram J.Chem.Phys.,27,176(1957). H.Hurzeler,M.G.Inghram J.Chem.Phys.,28,76(1958). 6)M.G.Inghram,Advances (1948). 7)M.G.Inghram 22,1279(1954). 8)W.C.Price,Annual and J.D.Morrison, and J. D.Morrison, in Electronics,1,219 and R.Gomer,J.Chem.Phys., Rep.Chem.Soc.,36,47 (1939). W.C.Price,Chem.Revs.,41,257(1947). Rev.,90,386(1953). 10)G.L.Weissler,Handbuch der Physik,Bd.XXI, F.J.Norton,Natl.Bur.Standards 522,201(1953). C.E.Melton Akad.Nauk D.P.Stevenson,and Phys.,24,926(1956). and G.F.Wells,J.Chem.Phys., SSSR.86,909(1952). F.H.Field,J.L.Franklin&F.W.Lampe, D.O.Schisslcr,J.Chem. J.Am.Chem.Soc.,79,2419(1957). 14)J.D.Morrison,J.Appl.Phys.,28,1409(1957). Circular, B16)R.E.Fox and W.M.Hickam,J.Chem.Phys., 22,2059(1954). W.M.Hickam 25,642(1956). and R.E.Fox,J.Chem.Phys., 17)A.Terenin and B.Popov,Physik.Z.Sowje tunion,2,299(1932). 18)N.Astoin and M.B.Vodar,J.Phys.et Rad., 4,424(1953). 19)T.A.Chubb 26,493(1955). 20)Y.Tanaka,J.Opt.Soc.Amer.,45,710(1955). P.G.Willkinson,J.Opt.Soc.Amer.,45,1044 (1955). 21)M.Seya,Sci.of T.Namioka,Sci.of 22)J.D.Morrison,J.Chem.Phys.,21,1767(1953). 23)H.M.Rosenstock,M.B.Wallenstein,A.L. Wahrhaftig&H.Eyring,Proc.Natl.Acad.Sci., U.S.,38,667(1952). W.A.Chupka,J.Chem.Phys.,30,191(1959). and H.Friedman,Rev.Sci.Inst., Light(Tokyo),2,8(1952). Light(Tokyo),3,15(1954). 24)W.Hickam,R.E.Fox and T.Kjeldaas,Phys. W.Hickam,R.B.Fox and T.Kjeldaas,Phys. Rev.,96,63(1954). 11)R.W.Ditchburn,Proc.Roy.Soc.,A229,44 (1955). 13)J.A.Hornbeck and J.P.Molnar,Phys.Rev., 84,621(1951). 25)G.B.Kistiakowsky and P.H.Kydd,J.Am. Chem.Soc.,79,4825(1957). 26)G.Herzberg Ž M B 27)I.Tanaka and E.W.R.Steacie,,J.Chem.Phys., 26,715(1957). I.Tanaka and E.W.R.Steacie,Can.J.Chem., 35,821(1957).
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