Research output: Contribution to conference › Paper › peer-review
Influence of the Electrode Surface Shape on Plasma and Light Emission Properties of High Pressure Short-Arc Xenon Discharge Lamps. / Тимофеев, Николай Александрович; Сухомлинов, Владимир Сергеевич; Zissis, George; Мухараева, Инджира Юрьевна; Бородина, Валерия Сергеевна; Badr, Abdul Hady.
2023. Paper presented at 2023 IEEE Sustainable Smart Lighting World Conference & Expo (LS18), Mumbai, India.Research output: Contribution to conference › Paper › peer-review
}
TY - CONF
T1 - Influence of the Electrode Surface Shape on Plasma and Light Emission Properties of High Pressure Short-Arc Xenon Discharge Lamps
AU - Тимофеев, Николай Александрович
AU - Сухомлинов, Владимир Сергеевич
AU - Zissis, George
AU - Мухараева, Инджира Юрьевна
AU - Бородина, Валерия Сергеевна
AU - Badr, Abdul Hady
PY - 2023/6/8
Y1 - 2023/6/8
N2 - The investigation of a short-arc xenon discharge at high pressure with essential evaporation of cathode material, thorium, into the discharge gap is carried out. The base of the study is the model developed previously. The data obtained show that thorium atoms strongly alter plasma characteristics, reducing the plasma temperature and changing the ionic composition near the cathode. In this work we consider a xenon discharge when discharge electrodes have a different shape of the working surface: the anode has a convex or concave shape; the cathode has a different cone angle. The calculations show that the shape of electrodes is indeed an unexpectedly strong factor of affecting plasma electrokinetic (electric field strength, temperature, composition of plasma particles) and optical (intensity and spectra) characteristics. The results obtained may be valuable for the development of new arc discharge light sources (xenon lamps).
AB - The investigation of a short-arc xenon discharge at high pressure with essential evaporation of cathode material, thorium, into the discharge gap is carried out. The base of the study is the model developed previously. The data obtained show that thorium atoms strongly alter plasma characteristics, reducing the plasma temperature and changing the ionic composition near the cathode. In this work we consider a xenon discharge when discharge electrodes have a different shape of the working surface: the anode has a convex or concave shape; the cathode has a different cone angle. The calculations show that the shape of electrodes is indeed an unexpectedly strong factor of affecting plasma electrokinetic (electric field strength, temperature, composition of plasma particles) and optical (intensity and spectra) characteristics. The results obtained may be valuable for the development of new arc discharge light sources (xenon lamps).
KW - arc xenon discharge
KW - light sources
KW - shape of electrode working surface
KW - thorium atoms evaporation
UR - https://www.mendeley.com/catalogue/0ef5a68f-2d50-3195-99f9-bc7d18e55c7a/
U2 - 10.1109/ls1858153.2023.10170552
DO - 10.1109/ls1858153.2023.10170552
M3 - Paper
T2 - 2023 IEEE Sustainable Smart Lighting World Conference & Expo (LS18)
Y2 - 8 June 2023 through 10 June 2023
ER -
ID: 114167036