Specials

Hollow Cathode Lamps

 

Product

Element Symbol

 P801 HCL-AluminiumAl
 P802 HCL-AntimonySb
 P803 HCL-ArsenicAs
 P803 THCL-Arsenic[Tubular]As
 P804 HCL-BariumBa
 P805 HCL-BerylliumBe
 P806 HCL-BismuthBi
 P807 HCL-BoronB
 P808 HCL-CadmiumCd
 P809 HCL-CalciumCa
 P810 HCL-CesiumCs
 P811 HCL-CeriumCe
 P812 HCL-ChromiumCr
 P813 HCL-CobaltCo
 P814 HCL-CopperCu
 P815 HCL-DysprosiumDy
 P816 HCL-ErbuimEr
 P817 HCL-EuropiumEu
 P818 HCL-GadoliniumGd
 P819 HCL-GalliumGa
 P820 HCL-GermaniumGe
 P821 HCL-GoldAu
 P822 HCL-HafniumHf
 P823 HCL-HolmiumHo
 P824 HCL-IndiumIn
 P825 HCL-IridiumIr
 P826 HCL-IronFe
 P827 HCL-LanthanumLa
 P828 HCL-LeadPb
 P829 HCL-LithiumLi
 P830 HCL-LutetiumLu
 P831 HCL-MagnesiumMg
 P832 HCL-ManganeseMn
 P833 HCL-MercuryHg
 P834 HCL-MolybdenumMo
 P835 HCL-NeodymiumNd
 P836 HCL-NickelNi
 P837 HCL-NiobiumNb
 P838 HCL-OsmiumOs
 P839 HCL-PalladiumPd
 P840 HCL-PlatinumPt
 P841 HCL-PotassiumK
 P842 HCL-PraseodymiumPr
 P843 HCL-RheniumRe
 P844 HCL-RhodiumRh
 P845 HCL-RubidiumRb
 P846 HCL-RutheniumRu
 P847 HCL-SamariumSm
 P848 HCL-ScandiumSc
 P849 HCL-SeleniumSe
 P850 HCL-SiliconSi
 P851 HCL-SilverAg
 P852 HCL-SodiumNa
 P853 HCL-StrontiumSr
 P854 HCL-TantalumTa
 P855 HCL-TelluriumTe
 P856 HCL-TerbiumTb
 P857 HCL-ThalliumTl
 P858 HCL-ThoriumTh
 P859 HCL-ThuliumTm
 P860 HCL-TinSn
 P861 HCL-TitaniumTi
 P862 HCL-TungstenW
 P863 HCL-UraniumU
 P864 HCL-VanadiumV
 P865 HCL-YtterbiumYb
 P866 HCL-YttriumY
 P867 HCL-ZincZn
 P868 HCL-ZirconiumZr
 P869 HCL-ContinuumH
 P870 HCL-Calcium/MagnesiumCa/Mg
 P871 HCL-Sodium/PotassiumNa/K
 P872 HCL-Copper/ZincCu/Zn
 P873 HCL-Chromium/Cobalt/Copper/Iron/Maganese/NickelCr/Co/Cu/Fe/Mn/Ni
 P874 HCL-PhosphorusP

Photron's P800 (37mm or 1.5 Diameter) series is designed for direct use in AAS systems manufactured by:
GBC Scientific, Varian, Analytic Jena, Shimadzu, Hitachi, Thermo Jarrel Ash, Unicam, and other makes.

Hollow cathode lamps produced by Photron are designed and manufactured to achieve all of the following fundamental requirements for a spectral line source.

  • Intense emission of resonance (ground state derived) lines.
  • Narrow line width, for maximum sensitivity and linearity.
  • Minimal spectral interference from continuum emission, present in the cathode.
  • Rapid warm up to produce stable long term light emission.
  • Noise free operation.
  • Long running life and a 5 year shelf life.
  • Cathode materials and geometry achieve a combination of spectral purity and a suitable sputtering rate.
    (A high sputtering rate will give high intensity at the expense of lamp life, sensitivity and linearity).

SMITH-HIEFTJE background correction.
Photron lamps have been tested and found to work as well as lamps sold specifically for this technique, however due to the high energy pulse used, some elements will be consumed at a higher rate reducing lamp life.

P800-hollow cathode

This content is sourced from the Photron website