1970
DOI: 10.1007/bf01399753
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Measurement of the Stark broadening parameters of some singly ionized argon lines

Abstract: Half-widths of fifteen Stark broadened argon II lines have been measured in argon plasma behind the reflected shock wave produced in an electromagnetically driven "T" tube. The plasma electron density was determined by the laser interferometry at three different wavelengths, while the plasma temperature was measured from relative intensities of A II lines. Temperatures were in the range 8,500--16,500 ~ electron densities varied from 1.82 to 3.94 9 1017 crn 3. The measured AII linewidths are compared with theor… Show more

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Cited by 36 publications
(20 citation statements)
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“…In contrast, the 487.98 nm transition belongs to another multiplet, which exhibits a ϳ30% stronger Stark effect. 12 Experimental linewidths are indeed consistent with both considerations, thereby confirming that the Stark effect is the primary line-broadening mechanism. A comparison of the experimental and calculated line shapes yields n e = ͑3.5Ϯ 0.5͒ ϫ 10 17 cm −3 or almost an order of magnitude higher than the values indicated by the H ␣ and H ␤ transitions.…”
supporting
confidence: 73%
See 1 more Smart Citation
“…In contrast, the 487.98 nm transition belongs to another multiplet, which exhibits a ϳ30% stronger Stark effect. 12 Experimental linewidths are indeed consistent with both considerations, thereby confirming that the Stark effect is the primary line-broadening mechanism. A comparison of the experimental and calculated line shapes yields n e = ͑3.5Ϯ 0.5͒ ϫ 10 17 cm −3 or almost an order of magnitude higher than the values indicated by the H ␣ and H ␤ transitions.…”
supporting
confidence: 73%
“…4͑b͔͒ were chosen for analysis partially because they lie in an uncongested spectral region, allowing one to invoke a Lorentzian line shape and to use tabulated values of Stark broadening. 12 We note that the 480.60 and 484.78 nm Ar II lines are components of the same multiplet and, thus, are expected to have almost identical Stark widths. In contrast, the 487.98 nm transition belongs to another multiplet, which exhibits a ϳ30% stronger Stark effect.…”
mentioning
confidence: 75%
“…2) are taken from Popenoe & Shumaker (1965), Jalufka et al (1966), Roberts (1966), Chapelle et al (1968ab), Roberts (1968), Konjević et al (1970), Klein (1973), Labat et al (1974), Behringer & Thoma (1978), Vaessen et al (1985), Nick & Helbig (1986), Pittman & Konjević (1986), Vitel & Skowronek (1987), Abbas et al (1988), Djeniže et al (1989), Dzierzega & Musiol (1994), Pellerin et al (1997), Aparicio et al (1998) and Iglesias et al (2006).…”
mentioning
confidence: 99%
“…The multiplets are arranged in the same way as it was done in NIST Atomic Spectra Database. The fifth and sixth columns contain measured Stark half-widths w m in picometres and in angular frequency units, respectively, those obtained in this work (TW) and the values measured by other authors (Jalufka et al 1966;Roberts 1966Roberts , 1968Chapelle et al 1968a,b;Konjević et al 1970;Labat et al 1974;Behinger & Thoma 1978;Nick & Helbig 1986;Pittman & Konjević 1986;Djeniže et al 1989;Dzierzega & Musiol 1994;Aparicio et al 1998a;Iglesias et al 2006). Reference numbers are indicated in the next column.…”
Section: R E S U Lt S a N D Discussionmentioning
confidence: 74%
“…A number of experimental studies have been devoted to Ar II spectral line Stark parameter measurement (Jalufka, Oertel & Ofelt 1966;Roberts 1966Roberts , 1968Blandin et al 1968;Chapelle et al 1968 ⋆ E-mail: djurovic@uns.ac.rs (SD); apa@opt.uva.es (JAA) a,b; Konjević et al 1970;Morris & Morris 1970;Labat et al 1974;Behinger & Thoma 1978;Nick & Helbig 1986;Pitman & Konjević 1986;Djeniže et al 1989;Dzierzega & Musiol 1994;Aparicio et al 1998a;Iglesias et al 2006). However, there are still a lot of data missing, particularly in the UV region.…”
Section: Introductionmentioning
confidence: 99%