Sm原子奇宇称Rydberg态光谱
[1] HOLLENSTEIN U,SEILER R,SCHMUTZ H,et al.. Selective field ionization of high Rydberg states: application to zero-kinetic-energy photoelectron spectroscopy [J]. J. Chem. Phys., 2001,115(12):5461-5469.
[2] RATH A D,KUNDU S,RAY A K. Total angular momenta of high-lying odd levels of U I at ~4 eV using resonance ionization laser polarization spectroscopy [J]. J. Quant. Spectrosc.Radiat. Transf., 2018, 206:328-332.
[3] MATSUOKAL,HASEGAWA S. Two-color resonance ionization spectroscopy of highly excited titanium atoms [J]. J. Opt. Soc. Am. B, 2007,24(10):2562-2579.
[4] WANG Q,WANG S,KANG Z H,et al.. Experimental branching fractions,transition probabilities and oscillator strengths of some levels in Ba I [J]. J. Quant. Spectrosc.Radiat. Transf., 2017, 199:89-92.
[5] FIELDS G,ZHANG X,DUNNING F B,et al.. Autoionization of very-high-n strontium Rydberg states [J]. Phys. Rev. A, 2018,97(1):013429-1-11.
[6] KALAITZIS P,DANAKAS S,BORDAS C,et al.. Near-saddle-point-energy photoionization microscopy images of Stark states of the magnesium atom [J]. Phys. Rev. A, 2019,99(2):023428-1-8.
[7] YANG H F,GAO W,QUAN W,et al.. Core effect on the diamagnetic spectrum of barium Rydberg states [J]. Phys. Rev. A, 2012,85(3):032508-1-6.
[8] VAILLANT C L,JONES M P A,POTVLIEGE R M. Long-range Rydberg-Rydberg interactions in calcium,strontium and ytterbium [J]. J. Phys. B:Atomic,Mol.Opt. Phys., 2012,45(13):135004-1-12.
[9] 袁卫国,戴长建,靳嵩,等. Ba原子6pnd(J=1,3)自电离光谱的实验研究 [J]. 物理学报, 2008,57(7):4076-4082.
YUAN W G,DAI C J,JIN S,et al.. Study of Ba 6pnd (J=1,3) autoionizing states [J]. Acta Phys. Sinica, 2008,57(7):4076-4082. (in Chinese)
[10] ZHU S B,CHEN T,LI X L,et al.. Polarization spectroscopy of 1S0-1P1 transition of neutral ytterbium isotopes in hollow cathode lamp [J]. J. Opt. Soc. Am. B, 2014,31(10):2302-2309.
[11] O’MALLEY S M,BECK D R. Three long-lived excited states of Tm-[J]. Phys. Rev. A, 2004,70(2):022502-1-9.
[12] SHEN X P,WANG W L,ZHAI L H,et al.. New spectroscopic data on high-lying excited even-parity levels of atomic neodymium [J]. Spectrochim. Acta Part B:At. Spectrosc., 2018,145:96-98.
[13] WENDT K,GOTTWALD T,MATTOLAT C,et al.. Ionization potentials of the lanthanides and actinides-towards atomic spectroscopy of super-heavy elements [J]. Hyperfine Interact., 2014,227(1):55-67.
[14] STUDER D,HEINITZ S,HEINKE R,et al.. Atomic transitions and the first ionization potential of promethium determined by laser spectroscopy [J]. Phys. Rev. A, 2019,99(6):062513-1-8.
[15] SHANG X,ZHOU C X,MA L,et al.. The determination of radiative lifetime for some Eu I levels by time-resolved laser-induced fluorescence spectroscopy[J]. J. Quant. Spectrosc. Radiat. Transf., 2019,224:103-106.
[16] NIKI H,MOTOKI K,YASUI M,et al.. Selectivity and efficiency of laser isotope separation processes of gadolinium [J]. J. Nucl. Sci. Technol., 2006,43(4):427-431.
[17] ANGONGAJ,GADWAY B. Polarization spectroscopy of atomic erbium in a hollow cathode lamp [J]. J. Phys. B:At.,Mol. Opt. Phys., 2018,51(4):045003-1-12.
[18] CHHETRI P,ACKERMANN D,BACKE H,et al.. Precision measurement of the first ionization potential of nobelium [J]. Phys. Rev. Lett., 2018,120(26):263003-1-6.
[19] GOMONAI A I,REMETA E Y. The effect of field strength on the resonance structure of three-photon ionization spectra of the samarium atom [J]. Opt. Spectrosc., 2013,114(3):329-336.
[20] LAWLER J E,FITTANTE A J,DEN HARTOG E A. Atomic transition probabilities of neutral samarium [J]. J. Phys. B:At.,Mol. Opt. Phys., 2013,46(21):215004-1-15.
[21] SEEMA A U,MANDAL P K,SAHOO A C,et al.. Radiative lifetimes of even-parity high-lying levels of Sm I by delayed photoionization measurements [J]. J. Quant. Spectrosc.Radiat. Transf., 2018,216:1-5.
[22] SAHOO A C,MANDAL P K,SHAH M L,et al.. Enhancement of photoionization by applying polarization-based common level excitation scheme for the selective photoionization of odd isotopes of samarium [J]. J.Quant. Spectrosc.Radiat. Transf., 2019,235:7-14.
[23] JAYASEKHARAN T,RAZVI M A N,BHALE G L. Even-parity bound and autoionizing Rydberg series of the samarium atom [J]. J. Phys. B:At.,Mol. Opt. Phys., 2000,33(16):3123-3136.
[24] LI M,DAI C J,XIE J. Even-parity states of the Sm atom with stepwise excitation [J]. Chin. Phys. B, 2011, 20(6):063204-1-9.
[25] PULHANI A K,SHAH M L,DEV V,et al.. High-lying even-parity excited levels of atomic samarium [J]. J. Opt. Soc. Am. B, 2005,22(5):1117-1122.
[26] QIN W J,DAI C J,XIAO Y,et al.. Experimental study of highly excited even-parity bound states of the Sm atom [J]. Chin. Phys. B, 2009,18(8):3384-3394.
[27] ZHAO Y H,DAI C J,YE S W. Study on even-parity highly excited states of the Sm atom [J]. J. Phys. B:At.,Mol. Opt. Phys., 2011,44(19):195001-1-7.
[28] 赵艳红,戴长建,野仕伟. Sm原子的偶宇称高激发态的光谱研究 [J]. 物理学报, 2012,61(3):033201-1-7.
ZHAO Y H,DAI C J,YE S W. Study on spectra of even-parity highly excited states of Sm atom[J]. Acta Phys. Sinica, 2012,61(3):033201-1-7. (in Chinese)
[29] SEEMA A U,MANDAL P K,RATH A D,et al.. New even-parity high-lying levels of Sm I and measurement of isotope shifts by two-color resonance ionization mass spectrometry [J]. J. Quant. Spectrosc. Radiat. Transf., 2014,145:197-204.
[30] SHAH M L,SAHOO A C,PULHANI A K,et al.. Investigations of high-lying even-parity energy levels of atomic samarium using simultaneous observation of two-color laser-induced fluorescence and photoionization signals [J]. Eur. Phys. J. D, 2014,68(8):2351-8.
[31] JAYASEKHARAN T,RAZVI M A N,BHALE G L. Investigations of new high-lying even-parity energy levels of the samarium atom below its first ionization limit [J]. J. Opt. Soc. Am. B, 2000,17(9):1607-1615.
[32] SCHMITT A,BUSHAW B A,WENDT K. Determination of the 154Sm ionization energy by high-precision laser spectroscopy[J]. J. Phys. B:At.,Mol. Opt. Phys., 2004,37(8):1633-1644.
[33] 杨騄,戴长建,赵艳红. 用光电离技术探测钐原子的奇宇称束缚激发态的光谱 [J]. 物理学报, 2013,62(5):53201-1-9.
YANG L,DAI C J,ZHAO Y H. Photoionization of odd-parity bound excited states of Sm atom [J]. Acta Phys. Sinica, 2013,62(5):53201-1-9. (in Chinese)
[34] SAHOO A C,SHAH M L,MANDAL P K,et al.. Measurement of radiative lifetime in atomic samarium using simultaneous detection of laser-induced fluorescence and photoionization signals [J]. Pramana, 2014,82(2):403-408.
[35] ZHENG X F,ZHOU X Y,CHENG Z Q,et al.. Photoionization cross section measurements of the excited states of cobalt in the near-threshold region [J]. AIP Adv., 2014,4(10):107120-1-10.
[36] BOKHAN P A,FATEEV N V,KIM V A,et al.. Isotope-selective laser excitation and field ionization of the nF5/2 Rydberg states in a thallium beam [J]. Laser Phys., 2013,23(5):055702-1-9.
[37] 沈礼,野仕伟,戴长建. 电场中Eu原子电离阈移动的实验研究 [J].物理学报, 2012,61(6):063301-1-5.
SHEN L,YE S W,DAI C J. Experiment study of ionization limit shift of europium atoms in electric fields [J]. Acta Phys. Sinica, 2012,61(6):063301-1-5. (in Chinese)
[38] LOCHEAD G,BODDY D,SADLER D P,et al.. Number-resolved imaging of excited-state atoms using a scanning autoionization microscope [J]. Phys. Rev. A, 2013,87(5):053409-1-4.
[39] MARTIN W C,ZALUBAS R,HAGAN L. Atomic Energy Levels:The Rare-Earth Elements,NSRDS-NBS 60 [M]. Washington:National Bureau of Standards, 1978.
[40] YI J H,LEE J,KONG H J. Autoionizing states of the ytterbium atom by three-photon polarization spectroscopy [J]. Phys. Rev. A, 1995,51(4):3053-3057.
许照锦, 张小虎, 张文纳, 黄朝宏, 沈礼. Sm原子奇宇称Rydberg态光谱[J]. 发光学报, 2020, 41(8): 999. XU Zhao-jin, ZHANG Xiao-hu, ZHANG Wen-na, HUANG Chao-hong, SHEN Li. Spectra of Odd-parity Rydberg States of Samarium Atom[J]. Chinese Journal of Luminescence, 2020, 41(8): 999.