3-3 Precise Frequency Measurement using Trapped Zinc Ions MATSUBARA Kensuke, URABE Shinji, and WATANABE Masayoshi The laser cooling of ions confined in the radio-frequency (RF) ion trap is capable of providing ideal samp - Laser pumping - Document - PDFSEARCH.IO - Document Search Engine

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	3-3 Precise Frequency Measurement using Trapped Zinc Ions MATSUBARA Kensuke, URABE Shinji, and WATANABE Masayoshi The laser cooling of ions confined in the radio-frequency (RF) ion trap is capable of providing ideal samp Add to Reading List Document Date: 2013-11-20 21:38:16 Open Document File Size: 674,60 KB Share Result on Facebook City Tokyo / / Company Laser Analytical Systems / Perot / Plenum Press / Shimizu / Advanced Research Division Quantum Electronics / / Currency pence / / Facility National Institute of Standards and Technology / National Institute of Information / University Quantum Electronics WATANABE Masayoshi / / IndustryTerm energy levels / noble-metal atoms / metal electronic structures / measurement equipment / periodic / buffer gas / energy shift / metal electronic structure / taper-type semiconductor device / / Organization National Institute of Standards and Technology / Graduate School / National Institute of Information / Kansai Advanced Research Center / Osaka University / / Person D. N. Stacey / V / D. J. Wineland / J. D. Miller / W. M. Itano / Isotope Shifts / J. C. Bergquist / J. A. Beall / B. C. Young / / Position D. Researcher / Atomic Frequency Standards Group / D. J. / King / Professor / Research supervisor / / Product Laser / / ProvinceOrState Zn / Minnesota / Zn+ / / Technology semiconductor / laser / lasers / spectroscopy / microwave / ISP / employing a solidstate laser / be generated using semiconductor lasers / / URL http / SocialTag Atomic physics Acronyms Laser Photonics Neodymium-doped yttrium orthovanadate Ion laser Optical pumping Spectroscopy Hyperfine structure Physics