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Journal of the Illuminating Engineering Society Volume 3, 1974 - Issue 4
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Original Articles

Energy Balances for Some High Pressure Gas Discharge Lamps

A. G. JackLight Division, N.V. Philips' Gloeilampenfabrieken, Eindhoven, Netherlands.
&
M. KoedamLight Division, N.V. Philips' Gloeilampenfabrieken, Eindhoven, Netherlands.
Pages 323-329 | Published online: 20 Sep 2013

Citations (45)

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Philip J. White & Elliot F. Wyner. (1985) High Pressure Sodium Lamps at Increased Loading. Journal of the Illuminating Engineering Society 15:1, pages 95-108.
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R. J. Zollweg. (1983) The Alumina Arc Tube Wall Temperature of High Pressure Sodium Lamps. Journal of the Illuminating Engineering Society 12:4, pages 275-281.
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J. H. Ingold & W. L. Taylor. (1982) Correlation of High Pressure Sodium Lamp Performance with Arc Tube Transmission Properties. Journal of the Illuminating Engineering Society 11:4, pages 223-230.
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K. E. Brown, A. G. Chalmers & D. O. Wharmby. (1982) Tin Sodium Halide Lamps in Ceramic Envelopes. Journal of the Illuminating Engineering Society 11:2, pages 106-114.
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John F. Waymouth & Elliot F. Wyner. (1981) Analysis of Factors Affecting Efficacy of High Pressure Sodium Lamps. Journal of the Illuminating Engineering Society 10:4, pages 237-244.
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. (1979) Discussions of Previously Published Papers—October 1978 and January 1979 Journal of the IES: Discomfort Glare: Duration-Intensity Relationship. Journal of the Illuminating Engineering Society 8:3, pages 132-141.
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R. J. Zollweg. (1975) Reducing Additive Segregation in Metal Halide High-Intensity Discharge Lamps. Journal of the Illuminating Engineering Society 5:1, pages 12-19.
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William M. Keeffe. (1975) Energy Balance of the Scandium-sodium Iodide Arc Lamp. Journal of the Illuminating Engineering Society 4:4, pages 260-264.
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Steffen Franke & Heinz Schöpp. 2017. Handbook of Advanced Lighting Technology. Handbook of Advanced Lighting Technology 1111 1123 .
Heinz Schöpp & Steffen Franke. 2017. Handbook of Advanced Lighting Technology. Handbook of Advanced Lighting Technology 1079 1095 .
Stuart A. Mucklejohn. (2015) An Overview of the Impact of Dimming Metal Halide Discharge Lamps. IEEE Transactions on Industry Applications 51:6, pages 4797-4801.
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Steffen Franke & Heinz Schöpp. 2014. Handbook of Advanced Lighting Technology. Handbook of Advanced Lighting Technology 1 10 .
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Heinz Schöpp & Steffen Franke. 2014. Handbook of Advanced Lighting Technology. Handbook of Advanced Lighting Technology 1 14 .
A J Rijke, S Nijdam, M Haverlag, J F J Janssen, J J A M van der Mullen & G M W Kroesen. (2011) A calibrated integrating sphere setup to determine the infrared spectral radiant flux of high-intensity discharge lamps. Journal of Physics D: Applied Physics 44:22, pages 224007.
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R. Ben Ahmed, Z. Araoud & K. Charrada. (2011) A numerical study of the sodium vapor discharge plasma. Physics of Plasmas 18:6.
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M Kato, M T Herd & J E Lawler. (2008) A survey of infrared continuum versus line radiation from metal halide lamps. Journal of Physics D: Applied Physics 41:14, pages 144019.
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M T Herd & J E Lawler. (2007) Infrared continuum radiation from metal halide high intensity discharge lamps. Journal of Physics D: Applied Physics 40:11, pages 3386-3395.
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D.h.j. Casteren, J.L. Duarte & M.A.M. Hendrix. (2006) Physics based MATLAB model for ceramic metal halide lamps. Physics based MATLAB model for ceramic metal halide lamps.
J J Curry, Craig J Sansonetti & J Wang. (2005) Temperature profiles and thermal losses in 150 W high-intensity discharge lamps. Journal of Physics D: Applied Physics 38:17, pages 3086-3092.
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K.T.A.L. Burm. (2005) Continuum radiation spectroscopy in a high-pressure argon–mercury lamp. Journal of Quantitative Spectroscopy and Radiative Transfer 95:1, pages 93-100.
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G. Lister, J. Lawler, W. Lapatovich & V. Godyak. (2004) The physics of discharge lamps. Reviews of Modern Physics 76:2, pages 541-598.
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D J Smith, G A Bonvallet & J E Lawler. (2003) Infrared losses from a Na/Sc metal-halide high intensity discharge arc lamp. Journal of Physics D: Applied Physics 36:13, pages 1519-1528.
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G A Bonvallet & J E Lawler. (2003) Optical absorption spectroscopy on a metal-halide high intensity discharge arc lamp using synchrotron radiation. Journal of Physics D: Applied Physics 36:13, pages 1510-1518.
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Dimitrios Karabourniotis. (2002) Nonequilibrium excited-state distribution of atoms in dense mercury plasmas. Journal of Applied Physics 92:1, pages 25-31.
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Lukas Küpper & Josef Schug. Active Night Vision Systems. Active Night Vision Systems.
M. Stambouli, K. Charrada, C. Costache & J.-J. Damelincourt. (1999) Modeling the warm-up phase of a high-pressure-lamps lighting network. IEEE Transactions on Plasma Science 27:3, pages 646-654.
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G. Hartel, H. Schöpp, H. Hess & L. Hitzschke. (1999) Radiation from an alternating current high-pressure mercury discharge: A comparison between experiments and model calculations. Journal of Applied Physics 85:10, pages 7076-7088.
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J.M. Strok. (2016) High-pressure sodium lamps: Practical design model. Lighting Research & Technology 24:3, pages 149-154.
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H. J. C. M. Sterenborg & J. C. van der Leun. (2008) TUMORIGENESIS BY A LONG WAVELENGTH UV‐A SOURCE. Photochemistry and Photobiology 51:3, pages 325-330.
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Stephan Offermanns. (1990) Electrodeless high-pressure microwave discharges. Journal of Applied Physics 67:1, pages 115-123.
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James T. Dakin, Theodore H. RautenbergJr.Jr. & Evelyn M. Goldfield. (1989) Anatomy of a vertical metal halide discharge. Journal of Applied Physics 66:9, pages 4074-4088.
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James T. Dakin & Richard P. Gilliard. (1987) Energy balance of the high-pressure mercury discharge with sodium- and scandium-iodide additives. Journal of Applied Physics 62:1, pages 79-87.
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James T. Dakin & Richard P. Gilliard. (1986) Model and diagnostics of the high-pressure mercury discharge with sodium iodide additives. Journal of Applied Physics 60:4, pages 1281-1288.
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Hidezoh Akutsu. (2016) Trends in HPS lamp technology. Lighting Research & Technology 16:2, pages 73-84.
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D O Wharmby. (1984) Energy balance of high-pressure sodium discharges under controlled vapour conditions. Journal of Physics D: Applied Physics 17:2, pages 367-378.
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P L Denbigh, B F Jones & D A J Mottram. (1983) Relationship between efficacy, arc tube temperature and power dissipation in a high-pressure sodium lamp. Journal of Physics D: Applied Physics 16:11, pages 2167-2180.
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C. L. Chalek & R. E. Kinsinger. (1981) A theoretical investigation of the pulsed high-pressure sodium arc. Journal of Applied Physics 52:2, pages 716-723.
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D.O. Wharmby. (2016) Spectroradiometry in research and development on lamps. Lighting Research & Technology 12:4, pages 221-225.
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Henry M. Cathey & Lowell E. Campbell. 1980. Horticultural Reviews. Horticultural Reviews 491 537 .
Hidezoh AKUTSU & Naoki SAITO. (1979) Energy balance of a high-pressure sodium arc tube.. Journal of Light & Visual Environment 3:2, pages 11-17.
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R. J. Zollweg. (1978) Convection in vertical high‐pressure mercury arcs. Journal of Applied Physics 49:3, pages 1077-1091.
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James D. RickmanJr.Jr.. (1977) High‐pressure sodium lamp arc tube temperature and alumina sublimation. Journal of Applied Physics 48:9, pages 3733-3738.
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P.L. Denbigh & D.O. Wharmby. (2016) Electrode fall and electric field measurements in high-pressure sodium discharges. Lighting Research & Technology 8:3, pages 141-145.
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J J de Groot & J A J M van Vliet. (1975) The measurement and calculation of the temperature distribution and the spectrum of high-pressure sodium arcs. Journal of Physics D: Applied Physics 8:6, pages 651-662.
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