{"id":18,"date":"2020-01-03T22:26:18","date_gmt":"2020-01-03T22:26:18","guid":{"rendered":"https:\/\/physlabs.colostate.edu\/brewer\/?page_id=18"},"modified":"2024-10-25T12:02:32","modified_gmt":"2024-10-25T19:02:32","slug":"publications","status":"publish","type":"page","link":"https:\/\/physlabs.colostate.edu\/brewer\/publications\/","title":{"rendered":"Publications"},"content":{"rendered":"\n
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  • S. G. Porsev, C. Cheung, M. S. Safronova, H. Bekker, N.-H. Rehbehn, J. R. Crespo L\u00f3pez-Urrutia, and S. M. Brewer, “Pr\\(^{10+}\\) as a candidate for a high-accuracy optical clock for tests of fundamental physics”, Phys. Rev. A 110<\/strong>, 042823 (2024).<\/li>\n
  • J. B. VanArsdale, M. J. Deutch, M. A. Lombardi, G. K. Nelson, J. A. Sherman, J. Spicer, W. C. Yates, D. C. Yost, and S. M. Brewer, “Dissemination of UTC(NIST) over 20 km of commercial <\/span>optical fiber with active phase stabilization”<\/span>, Opt. Lett. 49<\/strong>, 2545 (2024).<\/li>\n
  • D. M. Fairbank, A. L. Banducci, R. W. Gunkelman, J. B. VanArsdale, and S. M. Brewer, “Measurement of the unresolved \\(^{9}\\rm{Be}^{+}\\) \\(^{2}P_{3\/2}\\) hyperfine splittings using quantum-interference-enhanced state-selective repump spectroscopy”, Phys. Rev. A 109<\/strong>, 012809 (2024).<\/li>\n
  • D. M. Fairbank, A. L. Banducci, R. W. Gunkelman, J. B. VanArsdale, M. L. Vildibill, and S. M. Brewer,\u00a0“Absolute frequency measurements of the \\(D\\) lines in \\(^{9}\\rm{Be}^{+}\\) using a single trapped ion”, Phys. Rev. Lett. 131<\/strong>, 093001 (2023).<\/li>\n
  • S. O. Allehabi, S. M. Brewer, V. A. Dzuba, V. V. Flambaum, and K. Beloy, “High-accuracy optical clocks based on group-16-like highly charged ions”, Phys. Rev. A 106<\/strong>, 043101 (2022).<\/li>\n
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    C. A. Holliman, M. Fan, A. Contractor, S. M. Brewer, and A. M. Jayich, “Radium Ion Optical Clock”, Phys. Rev. Lett. 128<\/strong>, 033202 (2022).<\/p>\n<\/li>\n

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    K. Beloy, M. I. Bodine, T. Bothwell, S. M. Brewer, S. L. Bromley, J.-S. Chen, J.-D. Desche\u0302nes, S. A. Diddams, R. J. Fasano, T. M. Fortier, Y. S. Hassan, D. B. Hume, D. Kedar, C. J. Kennedy, I. Khader, A. Koepke, D. R. Leibrandt, H. Leopardi, A. D. Ludlow, W. F. McGrew, W. R. Milner, N. R. Newbury, D. Nicolodi, E. Oelker, T. E. Parker, J. M. Robinson, S. Romisch,\u00a0 S. A. Scha\u0308ffer, J. A. Sherman, L. C. Sinclair, L. Sonderhouse, W. C. Swann, J. Yao, J. Ye, and X. Zhang, “Frequency ratio measurements at 18-digit accuracy using an optical clock network”, Nature, 591<\/strong>, 564 (2021).<\/p>\n<\/li>\n

  • H. Leopardi, K. Beloy, T. Bothwell, S. M. Brewer, S. L. Bromley, J.-S. Chen, S. A. Diddams, R. J. Fasano, Y. S. Hassan, D. B. Hume, D. Kedar, C. J. Kennedy, D. R. Leibrandt, A. D. Ludlow, W. F. McGrew, W. R. Milner, D. Nicolodi, E. Oelker, T. E. Parker, J. M. Robinson, S. Romish, J. A. Sherman, L. Sonderhouse, J. Yao, J. Ye, X. Zhang, and T. M. Fortier, “Measurement of the \\(^{27}\\)Al\\(^{+}\\) and \\(^{87}\\)Sr absolute optical frequencies”, Metrologia 58<\/strong>, 015017 (2021).<\/li>\n
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    E. R. Clements, M. E. Kim, K. Cui, A. M. Hankin, S. M. Brewer, J. Valencia, J.-S. Chen, C.-W. Chou, D. R. Leibrandt, and D. B. Hume, “Lifetime-Limited Interrogation of Two Independent \\(^{27}\\)Al\\(^{+}\\) Clocks Using Correlation Spectroscopy”, Phys. Rev. Lett. 125<\/strong>, 243602 (2020).<\/p>\n<\/li>\n

  • K. Beloy, V. A. Dzuba, and S. M. Brewer, “Quadruply Ionized Barium as a Candidate for a High-Accuracy Optical Clock”, Phys. Rev. Lett. 125<\/strong>, 173002 (2020).<\/li>\n
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    M. I. Bodine, J.-D. Desche\u0302nes, I. H. Khader, W. C. Swann, H. Leopardi, K. Beloy, T. Bothwell, S. M. Brewer, S. L. Bromley, J.-S. Chen, S. A. Diddams, R. J. Fasano, T. M. Fortier, Y. S. Hassan, D. B. Hume, D. Kedar, C. J. Kennedy, A. Koepke, D. R. Leibrandt, A. D. Ludlow, W. F. McGrew, W. R. Milner, D. Nicolodi, E. Oelker, T. E. Parker, J. M. Robinson, S. Romish, S. A. Scha\u0308ffer, J. A. Sherman, L. Sonderhouse, J. Yao, J. Ye, X. Zhang, N. R. Newbury, and L. C. Sinclair, “Optical atomic clock comparison through turbulent air”, Phys. Rev. Research, <\/span>2<\/strong>, 033395 (2020).<\/span><\/p>\n<\/div>\n<\/div>\n<\/div>\n<\/li>\n

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    G. O’Neil, S. Sanders, P. Szpryt, Dipti, A. Gall, Y. Yang, S. M. Brewer, R. Doriese, J. Fowler, A. Naing, D. Swetz, J. Tan, J. Ullom, A. V. Volotka, E. Takacs, and Y. Ralchenko, “Measurement of the \\(^2P_{1\/2}~-~^2P_{3\/2}\\) fine-structure splitting in flourinelike Kr, W, Re, Os, and Ir”, Phys. Rev. A 102<\/strong>, 032803 (2020).<\/p>\n<\/li>\n

  • A. M. Hankin, E. R. Clements, Y. Huang, S. M. Brewer, J.-S. Chen, C. W. Chou, D. B. Hume, and D. R. Leibrandt, \u201cSystematic uncertainty due to background-gas collisions in trapped-ion optical clocks\u201d, Phys. Rev. A 100<\/strong>, 033419 (2019).
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  • S. M. Brewer, D. B. Hume, J.-S. Chen, A. M. Hankin, E. R. Clements, C. W. Chou, D. J. Wineland, and D. R. Leibrandt, “27<\/sup>Al+<\/sup> Quantum-Logic Clock with a Systematic Uncertainty below 10\u221218<\/sup>\u201d, Phys. Rev. Lett. 123<\/strong>, 033201 (2019).<\/li>\n
  • S. M. Brewer, J.-S. Chen, K. Beloy, A. M. Hankin, E. R. Clements, C. W. Chou, W. F. McGrew, X. Zhang, R. J. Fasano, D. Nicolodi, H. Leopardi, T. M. Fortier, S. A. Diddams, A. D, Ludlow, D. J. Wineland, D. R. Leibrandt, and D. B. Hume, \u201cMeasurements of 27<\/sup>Al+<\/sup> and 25<\/sup>Mg+<\/sup> magnetic constants for improved ion-clock accuracy\u201d, Phys. Rev. A 100<\/strong>, 013409 (2019).<\/li>\n
  • J. M. Dreiling, A. S. Naing, J. N. Tan, J. M. Hanson, S. F. Hoogerheide, and S. M. Brewer, \u201cCapture of highly charged ions in a pseudo-hyperbolic Paul trap\u201d, J. Appl. Phys. 126<\/strong>, 024501 (2019).<\/li>\n
  • S. M. Brewer, J. M. Dreiling, N. D. Guise, S. F. Hoogerheide, A. Naing, and J. N. Tan, \u201cLifetime of the metastable \\(^{2}P_{1\/2}\\) state of F-like Ar\\(^{9+}\\) isolated in a compact Penning trap\u201d, Phys. Rev. A 98<\/strong>, 032501 (2018).<\/li>\n
  • J.-S. Chen, S. M. Brewer, C. W. Chou, D. J. Wineland, D. R. Leibrandt, and D. B. Hume, \u201cSympathetic Ground State Cooling and Time-Dilation Shifts in an 27<\/sup>Al+<\/sup> Optical Clock\u201d, Phys. Rev. Lett. 118<\/strong>, 053002 (2017).<\/li>\n
  • S. F. Hoogerheide, A. S. Naing, J. M. Dreiling, S. M. Brewer, N. D. Guise, and J. N. Tan, “Experiments with Highly-Ionized Atoms in Unitary Penning Traps\u201d, Atoms 3<\/strong>, 367-391, (2015).<\/li>\n
  • N. D. Guise, J. N. Tan, S. M. Brewer, C. F. Fischer, and P. Jonss\u00f6n, \u201cMeasurement of the Kr XVIII 3d \\(^{2}D_{5\/2}\\) lifetime at low energy in a unitary Penning trap\u201d, Phys. Rev. A 89<\/strong>, 040502(R) (2014).<\/li>\n
  • S. M. Brewer, N. D. Guise, and J. N. Tan, \u201cCapture and isolation of highly charged ions in a unitary Penning trap\u201d, Phys. Rev. A 88<\/strong>, 063403 (2013).<\/li>\n
  • R. C. Brown, S. Wu, J. V. Porto, C. J. Sansonetti, C. E. Simien, S. M. Brewer, J. N. Tan, and J. D. Gillaspy, “Quantum interference and light polarization effects in unresolvable atomic lines: Application to a precise measurement of the 6,7<\/sup>Li D2<\/sub> lines”, Phys. Rev. A 87<\/strong>, 032504 (2013).<\/li>\n
  • J. N. Tan, S. M. Brewer, and N. D. Guise, “Penning traps with unitary architecture for storage of highly charged ions”, Rev. Sci. Instrum. 83<\/strong>, 023103 (2012).<\/li>\n
  • C. J. Sansonetti, C. E. Simien, J. D. Gillaspy, J. N. Tan, S. M. Brewer, R. C. Brown, S. Wu, and J. V. Porto, \u201cAbsolute transition frequencies and quantum interference in a frequency comb based measurement of the 6,7<\/sup>Li D lines\u201d, Phys. Rev. Lett. 107<\/strong>, 023001 (2011).<\/li>\n
  • I. N. Dragani\u0107, Yu. Ralchenko, J. Reader, J. D. Gillaspy, J. N. Tan, J. M. Pomeroy, S. M. Brewer, D. Osin, “EUV spectral lines of highly-charged Hf, Ta and Au ions observed with an electron beam ion trap”, J. Phys. B 44<\/strong>, 025001 (2011).<\/li>\n
  • J. D. Gillaspy, I. N. Dragani\u0107, Yu. Ralchenko, J. Reader, J. N. Tan, J. M. Pomeroy, and S. M. Brewer, “Measurement of the D-line doublet in high-Z highly charged sodiumlike ions”, Phys. Rev. A 80<\/strong>, 010501(R) (2009).<\/li>\n<\/ul>\n<\/div><\/div>\n<\/div>\n<\/div>\n<\/div><\/div>\n","protected":false},"excerpt":{"rendered":"

    S. G. Porsev, C. Cheung, M. S. Safronova, H. Bekker, N.-H. Rehbehn, J. R. Crespo L\u00f3pez-Urrutia, and S. M. Brewer, “Pr as a candidate for a high-accuracy optical clock for tests of fundamental physics”, Phys. Rev. A 110, 042823 (2024). J. B. VanArsdale, M. J. Deutch, M. A. Lombardi, G. K. Nelson, J. A. Sherman, … <\/p>\n

    Continue reading<\/a><\/p>\n","protected":false},"author":44,"featured_media":0,"parent":0,"menu_order":4,"comment_status":"closed","ping_status":"closed","template":"","meta":{"_kad_blocks_custom_css":"","_kad_blocks_head_custom_js":"","_kad_blocks_body_custom_js":"","_kad_blocks_footer_custom_js":"","footnotes":""},"class_list":["post-18","page","type-page","status-publish","hentry","nodate","item-wrap"],"taxonomy_info":[],"featured_image_src_large":false,"author_info":{"display_name":"brewersm","author_link":"https:\/\/physlabs.colostate.edu\/brewer\/author\/brewersm\/"},"comment_info":0,"_links":{"self":[{"href":"https:\/\/physlabs.colostate.edu\/brewer\/wp-json\/wp\/v2\/pages\/18","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/physlabs.colostate.edu\/brewer\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/physlabs.colostate.edu\/brewer\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/physlabs.colostate.edu\/brewer\/wp-json\/wp\/v2\/users\/44"}],"replies":[{"embeddable":true,"href":"https:\/\/physlabs.colostate.edu\/brewer\/wp-json\/wp\/v2\/comments?post=18"}],"version-history":[{"count":57,"href":"https:\/\/physlabs.colostate.edu\/brewer\/wp-json\/wp\/v2\/pages\/18\/revisions"}],"predecessor-version":[{"id":311,"href":"https:\/\/physlabs.colostate.edu\/brewer\/wp-json\/wp\/v2\/pages\/18\/revisions\/311"}],"wp:attachment":[{"href":"https:\/\/physlabs.colostate.edu\/brewer\/wp-json\/wp\/v2\/media?parent=18"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}