Model function for measuring neon line Stark shift
Само за регистроване кориснике
2017
Остало (Објављена верзија)
Метаподаци
Приказ свих података о документуАпстракт
The analysis of DC Stark shift for NeI 511.367 nm
line was previously reported by Jäger and Windholz
[1] who found that the line splits into three Stark
components, shifted towards larger wavelengths
(i.e. smaller wave numbers). In a wide range of
electric field (>50 kV/cm), they successfully fitted
measured Stark shifts with eq. 2, using the Stark
coefficients listed in table 2, see [1].
Unfortunately, this neon line exhibits small Stark
shifts, which require high spectral resolution for
reliable electric field strength measurement in the
cathode sheath (CS) region of neon glow discharge
(GD). Fortunately, there are another neutral neon
lines, such as NeI 503.134 nm, which have much
larger Stark shifts, but there are no experimental data
for determination of algebraic coefficients for
electric field strength evaluation.
To measure the Stark shifts of the
NeI 511.367 nm line, we have fitted its experimental
profiles with the model function developed for this
purpose.... The aim of this work are measurements
Stark shift of NeI 511.367 nm and comparison with
results obtained in [1].
Кључне речи:
DC Stark effect / electric field measurements / Cathode sheath regionИзвор:
12th Frontiers in Low Temperature Plasma Diagnostics (FLTPD XII), 2017, 20-Издавач:
- Fizički fakultet, Univerzitet u Beogradu
Финансирање / пројекти:
- Спектроскопска дијагностика нискотемпературне плазме и ганих пражњења: облици спектралних линија и интеракција са површинама (RS-MESTD-Basic Research (BR or ON)-171014)
- Суперпроводност, магнетизам и флуктуационе појаве (RS-MESTD-Basic Research (BR or ON)-171027)
Институција/група
Poljoprivredni fakultetTY - GEN AU - Ivanović, Nikola V. AU - Šišović, Nikola M. AU - Spasojevic, Djordje AU - Konjevic, Nikola PY - 2017 UR - http://aspace.agrif.bg.ac.rs/handle/123456789/6932 AB - The analysis of DC Stark shift for NeI 511.367 nm line was previously reported by Jäger and Windholz [1] who found that the line splits into three Stark components, shifted towards larger wavelengths (i.e. smaller wave numbers). In a wide range of electric field (>50 kV/cm), they successfully fitted measured Stark shifts with eq. 2, using the Stark coefficients listed in table 2, see [1]. Unfortunately, this neon line exhibits small Stark shifts, which require high spectral resolution for reliable electric field strength measurement in the cathode sheath (CS) region of neon glow discharge (GD). Fortunately, there are another neutral neon lines, such as NeI 503.134 nm, which have much larger Stark shifts, but there are no experimental data for determination of algebraic coefficients for electric field strength evaluation. To measure the Stark shifts of the NeI 511.367 nm line, we have fitted its experimental profiles with the model function developed for this purpose. The aim of this work are measurements Stark shift of NeI 511.367 nm and comparison with results obtained in [1]. PB - Fizički fakultet, Univerzitet u Beogradu T2 - 12th Frontiers in Low Temperature Plasma Diagnostics (FLTPD XII) T1 - Model function for measuring neon line Stark shift SP - 20 UR - https://hdl.handle.net/21.15107/rcub_agrospace_6932 ER -
@misc{ author = "Ivanović, Nikola V. and Šišović, Nikola M. and Spasojevic, Djordje and Konjevic, Nikola", year = "2017", abstract = "The analysis of DC Stark shift for NeI 511.367 nm line was previously reported by Jäger and Windholz [1] who found that the line splits into three Stark components, shifted towards larger wavelengths (i.e. smaller wave numbers). In a wide range of electric field (>50 kV/cm), they successfully fitted measured Stark shifts with eq. 2, using the Stark coefficients listed in table 2, see [1]. Unfortunately, this neon line exhibits small Stark shifts, which require high spectral resolution for reliable electric field strength measurement in the cathode sheath (CS) region of neon glow discharge (GD). Fortunately, there are another neutral neon lines, such as NeI 503.134 nm, which have much larger Stark shifts, but there are no experimental data for determination of algebraic coefficients for electric field strength evaluation. To measure the Stark shifts of the NeI 511.367 nm line, we have fitted its experimental profiles with the model function developed for this purpose. The aim of this work are measurements Stark shift of NeI 511.367 nm and comparison with results obtained in [1].", publisher = "Fizički fakultet, Univerzitet u Beogradu", journal = "12th Frontiers in Low Temperature Plasma Diagnostics (FLTPD XII)", title = "Model function for measuring neon line Stark shift", pages = "20", url = "https://hdl.handle.net/21.15107/rcub_agrospace_6932" }
Ivanović, N. V., Šišović, N. M., Spasojevic, D.,& Konjevic, N.. (2017). Model function for measuring neon line Stark shift. in 12th Frontiers in Low Temperature Plasma Diagnostics (FLTPD XII) Fizički fakultet, Univerzitet u Beogradu., 20. https://hdl.handle.net/21.15107/rcub_agrospace_6932
Ivanović NV, Šišović NM, Spasojevic D, Konjevic N. Model function for measuring neon line Stark shift. in 12th Frontiers in Low Temperature Plasma Diagnostics (FLTPD XII). 2017;:20. https://hdl.handle.net/21.15107/rcub_agrospace_6932 .
Ivanović, Nikola V., Šišović, Nikola M., Spasojevic, Djordje, Konjevic, Nikola, "Model function for measuring neon line Stark shift" in 12th Frontiers in Low Temperature Plasma Diagnostics (FLTPD XII) (2017):20, https://hdl.handle.net/21.15107/rcub_agrospace_6932 .