New odd-parity high-lying energy levels of the europium atom by resonance ionization spectroscopy

Nakhate, S.G.; Razvi, M. A. N.; Bhale, G. L.; Ahmad, S. A.

doi:10.1088/0953-4075/29/8/009

Cited by 17 publications

(25 citation statements)

References 7 publications

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“…Among the 38 transitions shown in Table 1, 14 have not been reported before, while the rest of them accord well with those reported in the literature in terms of energy. [17] Furthermore, the intensities of all observed spectral lines are also tabulated for the first time, providing some additional information about these states. For instance, the intensities of the newly discovered spectral lines are mostly weaker than those of transitions whose level energies have been reported before, which may partially explain why the previous work failed to observe them.…”

Section: Highly Excited Bound Statesmentioning

confidence: 99%

Experimental study of bound and autoionizing Rydberg states of the europium atom

肖颖¹,

戴长建²,

秦文杰³

2010

Chinese Phys. B

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An isolated-core-excitation (ICE) scheme and stepwise excitation are employed to study the highly excited states of the europium atom. The bound europium spectrum with odd parity in a region of 42400–43500 cm−1 is measured, from which spectral information on 38 transitions, such as level position and relative intensity, can be deduced. Combined with information about excitation calibration and the error estimation process, the selection rules enable us to determine the possible values of total angular momentum J for the observed states. The autoionization spectra of atomic europium, belonging to the 4f76pnl (l = 0, 2) configurations, are systematically investigated by using the three-step laser resonance ionization spectroscopy (RIS) approach. With the ICE scheme, all the experimental spectra of the autoionizing states have nearly symmetric profiles whose peak positions and widths can be easily obtained. A comparison between our results and those from the relevant literature shows that our work not only confirms many reported states, but also discovers 14 bound states and 16 autoionizing states.

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Section: Highly Excited Bound Statesmentioning

confidence: 99%

Experimental study of bound and autoionizing Rydberg states of the europium atom

肖颖¹,

戴长建²,

秦文杰³

2010

Chinese Phys. B

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“…reduced ion source temperatures, fast beam gating [10,11], low work function cavities [12] or the Laser Ion Source Trap (LIST) [13]. Presently several resonance laser ionization schemes for europium exist, making use of either three step schemes [14] or two step schemes [15]. In both cases dye laser were used, where the two step schemes have made use of UV pumped dye lasers, emitting light in the blue to green spectral range.…”

Section: Introductionmentioning

confidence: 99%

Resonance ionization scheme development for europium

et al. 2017

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Odd-parity autoionizing states of europium have been investigated by resonance ionization spectroscopy via two-step, two-resonance excitations. The aim of this work was to establish ionization schemes specifically suited for europium ion beam production using the ISOLDE Resonance Ionization Laser Ion Source (RILIS). 13 new RILIS-compatible ionization schemes are proposed. The scheme development was the first application of the Photo Ionization Spectroscopy Apparatus (PISA) which has recently been integrated into the RILIS setup.

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“…With the development of the tunable laser and high-resolution spectroscopy, the atomic highly excited states have been investigated extensively [1][2][3]. In particular, multi-step photoionization (MSPI) spectroscopy has been proved to be a more effective and suitable technique than conventional absorption spectroscopy [4][5][6] for studying the spectra of complex atoms [7][8][9].…”

Section: Introductionmentioning

confidence: 99%

“…Although there have also been some reports on the spectra of the highly excited states for the rare-earth atoms, they mainly focus on Gd and Yb atoms [14][15][16][17][18][19]. In recent years, some works on the states of the europium (Eu) atom have also been reported [2,9,[20][21][22][23][24], but most of them deal with odd-parity states. Therefore, this work will report the results of bound even-parity highly excited states of the Eu atom with the MSPI technique.…”

Section: Introductionmentioning

confidence: 99%

Study of even-parity highly excited states of Eu I with a three-colour stepwise resonant excitation

Xie¹,

Dai²,

Li³

2010

J. Phys. B: At. Mol. Opt. Phys.

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Even-parity highly excited states of an europium (Eu) atom have been investigated by employing the three-colour stepwise resonant excitation technique. Seventy-eight even-parity states of the Eu atom have been detected in the energy region between 43 500 and 45 200 cm −1 with two different excitation schemes. With a detailed analysis of the experimental data, this work not only confirms or improves the previous results by determining their level energy, J assignment, but also reports 21 new states of the Eu atom with a unique J assignment. In addition, the information about relative line intensities of these 78 related transitions are also provided for the first time.

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New odd-parity high-lying energy levels of the europium atom by resonance ionization spectroscopy

Cited by 17 publications

References 7 publications

Experimental study of bound and autoionizing Rydberg states of the europium atom

Experimental study of bound and autoionizing Rydberg states of the europium atom

Resonance ionization scheme development for europium

Study of even-parity highly excited states of Eu I with a three-colour stepwise resonant excitation

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