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1. Implications of the laser excitation of the Th-229 nucleus for dark matter searches

Author

Fuchs, Elina, Kirk, Fiona, Madge, Eric, Paranjape, Chaitanya, Peik, Ekkehard, Perez, Gilad, Ratzinger, Wolfram, and Tiedau, Johannes

Subjects
High Energy Physics - Phenomenology, Nuclear Experiment, Physics - Atomic Physics
Abstract

The recent laser excitation of the low-lying Th-229 isomer transition is starting a revolution in ultralight dark matter searches. The enhanced sensitivity of this transition to the large class of dark matter models dominantly coupling to quarks and gluons will ultimately allow us to probe coupling strengths eight orders of magnitude smaller than the current bounds from optical atomic clocks, which are mainly sensitive to dark matter couplings to electrons and photons. We argue that, with increasing precision, observations of the Th-229 excitation spectrum will soon give world-leading constraints. Using data from the pioneering laser excitation of Th-229 by Tiedau et al. [Phys. Rev. Lett. 132, 182501 (2024)], we present a first dark matter search in the excitation spectrum. While the exclusion limits of our detailed study of the lineshape are still below the sensitivity of currently operating clock experiments, we project the measurement of Zhang et al. [arXiv:2406.18719 [physics.atom-ph]] to surpass it., Comment: 14 pages, 6 figures

Published
2024

3. Optical frequency ratio of a ${}^{171}\mathrm{Yb}^+$ single-ion clock and a ${}^{87}\mathrm{Sr}$ lattice clock

Author

Dörscher, Sören, Huntemann, Nils, Schwarz, Roman, Lange, Richard, Benkler, Erik, Lipphardt, Burghard, Sterr, Uwe, Peik, Ekkehard, and Lisdat, Christian

Subjects
Physics - Atomic Physics
Abstract

We report direct measurements of the frequency ratio of the 642 THz ${}^2S_{1/2} (F=0)$--${}^2F_{7/2} (F=3)$ electric octupole transition in ${}^{171}\mathrm{Yb}^+$ and the 429 THz ${}^1S_0$--${}^3P_0$ transition in ${}^{87}\mathrm{Sr}$. A series of 107 measurements has been performed at the Physikalisch-Technische Bundesanstalt between December 2012 and October 2019. Long-term variations of the ratio are larger than expected from the individual measurement uncertainties of few $10^{-17}$. The cause of these variations remains unknown. Even taking these into account, we find a fractional uncertainty of the frequency ratio of $2.5 \times 10^{-17}$, which improves upon previous knowledge by one order of magnitude. The average frequency ratio is $\nu_{\mathrm{Yb}^+} / \nu_{\mathrm{Sr}} = 1.495\,991\,618\,544\,900\,537(38)$. This represents one of the most accurate measurements between two different atomic species to date., Comment: 9 pages, 4 figures, 1 table

Published
2020
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4. Coherent excitation of the highly forbidden electric octupole transition in ${}^{172}$Yb$^+$

Author

Fürst, Henning A., Yeh, Chih-Han, Kalincev, Dimitri, Kulosa, André P., Dreissen, Laura S., Lange, Richard, Benkler, Erik, Huntemann, Nils, Peik, Ekkehard, and Mehlstäubler, Tanja E.

Subjects
Physics - Atomic Physics
Abstract

We report on the first coherent excitation of the highly forbidden $^2S_{1/2}\rightarrow{}^2F_{7/2}$ electric octupole (E3) transition in a single trapped ${}^{172}$Yb$^+$ ion, an isotope without nuclear spin. Using the transition in ${}^{171}$Yb$^+$ as a reference, we determine the transition frequency to be $642\,116\,784\,950\,887.6(2.4)\,$Hz. We map out the magnetic field environment using the forbidden $^2S_{1/2} \rightarrow{}^2D_{5/2}$ electric quadrupole (E2) transition and determine its frequency to be $729\,476\,867\,027\,206.8(4.4)\,$Hz. Our results are a factor of $1\times10^5$ ($3\times10^{5}$) more accurate for the E2 (E3) transition compared to previous measurements. The results open up the way to search for new physics via precise isotope shift measurements and improved tests of local Lorentz invariance using the metastable $^2F_{7/2}$ state of Yb$^+$., Comment: 6 pages, 5 figures

Published
2020
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5. Guidelines for developing optical clocks with $10^{-18}$ fractional frequency uncertainty

Author

Abdel-Hafiz, Moustafa, Ablewski, Piotr, Al-Masoudi, Ali, Martínez, Héctor Álvarez, Balling, Petr, Barwood, Geoffrey, Benkler, Erik, Bober, Marcin, Borkowski, Mateusz, Bowden, William, Ciuryło, Roman, Cybulski, Hubert, Didier, Alexandre, Doležal, Miroslav, Dörscher, Sören, Falke, Stephan, Godun, Rachel M., Hamid, Ramiz, Hill, Ian R., Hobson, Richard, Huntemann, Nils, Coq, Yann Le, Targat, Rodolphe Le, Legero, Thomas, Lindvall, Thomas, Lisdat, Christian, Lodewyck, Jérôme, Margolis, Helen S., Mehlstäubler, Tanja E., Peik, Ekkehard, Pelzer, Lennart, Pizzocaro, Marco, Rauf, Benjamin, Rolland, Antoine, Scharnhorst, Nils, Schioppo, Marco, Schmidt, Piet O., Schwarz, Roman, Şenel, Çağrı, Spethmann, Nicolas, Sterr, Uwe, Tamm, Christian, Thomsen, Jan W., Vianello, Alvise, and Zawada, Michał

Subjects
Physics - Atomic Physics
Abstract

There has been tremendous progress in the performance of optical frequency standards since the first proposals to carry out precision spectroscopy on trapped, single ions in the 1970s. The estimated fractional frequency uncertainty of today's leading optical standards is currently in the $10^{-18}$ range, approximately two orders of magnitude better than that of the best caesium primary frequency standards. This exceptional accuracy and stability is resulting in a growing number of research groups developing optical clocks. While good review papers covering the topic already exist, more practical guidelines are needed as a complement. The purpose of this document is therefore to provide technical guidance for researchers starting in the field of optical clocks. The target audience includes national metrology institutes (NMIs) wanting to set up optical clocks (or subsystems thereof) and PhD students and postdocs entering the field. Another potential audience is academic groups with experience in atomic physics and atom or ion trapping, but with less experience of time and frequency metrology and optical clock requirements. These guidelines have arisen from the scope of the EMPIR project "Optical clocks with $1 \times 10^{-18}$ uncertainty" (OC18). Therefore, the examples are from European laboratories even though similar work is carried out all over the world. The goal of OC18 was to push the development of optical clocks by improving each of the necessary subsystems: ultrastable lasers, neutral-atom and single-ion traps, and interrogation techniques. This document shares the knowledge acquired by the OC18 project consortium and gives practical guidance on each of these aspects., Comment: 130 pages, Table 5.3 corrected in v2

Published
2019

6. Electronic level structure of $\mathrm{Th}^+$ in the range of the $^{229m}\mathrm{Th}$ isomer energy

Author

Meier, David-Marcel, Thielking, Johannes, Głowacki, Przemysław, Okhapkin, Maksim V., Müller, Robert A., Surzhykov, Andrey, and Peik, Ekkehard

Subjects
Physics - Atomic Physics
Abstract

Using resonant two-step laser excitation of trapped $^{232}\mathrm{Th}^+$ ions, we observe 166 previously unknown energy levels of even parity within the energy range from 7.8 to 9.8 eV and angular momenta from $J=1/2$ to $7/2$. We also classify the high-lying levels observed in our earlier experiments by the total angular momentum and perform ab-initio calculations to compare their results with the observed level density. The observed levels can be relevant for the excitation or decay of the $^{229m}\mathrm{Th}$ isomeric nuclear state which lies in this energy range. The high density of electronic levels promises a strongly enhanced electronic bridge excitation of the isomer in $^{229}\mathrm{Th}^+$., Comment: 10 pages, 4 figures, 4 tables; 2 figures updated, 1 reference added, section 5 updated

Published
2019
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7. Optical clock comparison test of Lorentz symmetry

Author

Sanner, Christian, Huntemann, Nils, Lange, Richard, Tamm, Christian, Peik, Ekkehard, Safronova, Marianna S., and Porsev, Sergey G.

Subjects
Physics - Atomic Physics, Quantum Physics
Abstract

Questioning the presumably most basic assumptions about the structure of space and time has revolutionized our understanding of Nature. State-of-the-art atomic clocks make it possible to precisely test fundamental symmetry properties of spacetime, and search for physics beyond the standard model at low energy scales of just a few electron volts. Here, we experimentally demonstrate for the first time agreement of two single-ion clocks at the $10^{-18}$ level and directly confirm the validity of their uncertainty budgets over a half-year long comparison period. The two clock ions are confined in separate ion traps with quantization axes aligned along nonparallel directions. Hypothetical Lorentz symmetry violations would lead to sidereal modulations of the frequency offset. From the absence of such modulations at the $10^{-19}$ level we deduce stringent limits on Lorentz symmetry violation parameters for electrons in the range of $10^{-21}$, improving previous limits by two orders of magnitude., Comment: 21 pages, 2 figures, 2 tables

Published
2018
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8. Hyperfine interaction with the $^{229}$Th nucleus and its low lying isomeric state

Author

Müller, Robert A., Maiorova, Anna V., Fritzsche, Stephan, Volotka, Andrey V., Beerwerth, Randolf, Glowacki, Przemyslaw, Thielking, Johannes, Meier, David-Marcel, Okhapkin, Maksim, Peik, Ekkehard, and Surzhykov, Andrey

Subjects
Physics - Atomic Physics, Nuclear Theory, Physics - Computational Physics
Abstract

The thorium nucleus with mass number $A=229$ has attracted much interest because its extremely low lying first excited isomeric state at about $8$eV opens the possibility for the development of a nuclear clock. However, neither the exact energy of this nuclear isomer nor properties, such as nuclear magnetic dipole and electric quadrupole moment are known to a high precision so far. The latter can be determined by investigating the hyperfine structure of thorium atoms or ions. Due to its electronic structure and the long lifetime of the nuclear isomeric state, Th$^{2+}$ is especially suitable for such kind of studies. In this letter we present a combined experimental and theoretical investigation of the hyperfine structure of the $^{229}$Th$^{2+}$ ion in the nuclear ground and isomeric state. A very good agreement between theory and experiment is found for the nuclear ground state. Moreover, we use our calculations to confirm the recently presented experimental value for the nuclear magnetic dipole moment of the thorium nuclear isomer, which was in contradiction to previous theoretical studies.

Published
2018
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9. Laser spectroscopic characterization of the nuclear clock isomer $^{229m}$Th

Author

Thielking, Johannes, Okhapkin, Maxim V., Glowacki, Przemyslaw, Meier, David M., von der Wense, Lars, Seiferle, Benedict, Düllmann, Christoph E., Thirolf, Peter G., and Peik, Ekkehard

Subjects
Nuclear Experiment
Abstract

The isotope $^{229}$Th is the only nucleus known to possess an excited state $^{229m}$Th in the energy range of a few electron volts, a transition energy typical for electrons in the valence shell of atoms, but about four orders of magnitude lower than common nuclear excitation energies. A number of applications of this unique nuclear system, which is accessible by optical methods, have been proposed. Most promising among them appears a highly precise nuclear clock that outperforms existing atomic timekeepers. Here we present the laser spectroscopic investigation of the hyperfine structure of $^{229m}$Th$^{2+}$, yielding values of fundamental nuclear properties, namely the magnetic dipole and electric quadrupole moments as well as the nuclear charge radius. After the recent direct detection of this long-searched-for isomer, our results now provide detailed insight into its nuclear structure and present a method for its non-destructive optical detection., Comment: 18 pages

Published
2017
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10. Laser-induced electronic bridge for characterization of the $~^{229\rm{m}}\rm{Th} \rightarrow ~^{229\rm{g}}\rm{Th}$ nuclear transition with a tunable optical laser

Author

Bilous, Pavlo V., Peik, Ekkehard, and Pálffy, Adriana

Subjects
Physics - Atomic Physics, Nuclear Theory
Abstract

An alternative method to determine the excitation energy of the $~^{229\rm{m}}\rm{Th}$ isomer via the laser-induced electronic bridge is investigated theoretically. In the presence of an optical or ultra-violet laser at energies that fulfill a two-photon resonance condition, the excited nuclear state can decay by transfering its energy to the electronic shell. A bound electron is then promoted to an excited state by absorption of a laser photon and simultaneous de-excitation of the nucleus. We present calculated rates for the laser-induced electronic bridge process and discuss the experimental requirements for the corresponding setup. Our results show that depending on the actual value of the nuclear transition energy, the rate can be very high, with an enhancement factor compared to the radiative nuclear decay of up to $10^8$., Comment: 11 pages, 3 figures, 4 tables

Published
2017
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11. Auto-Balanced Ramsey Spectroscopy

Author

Sanner, Christian, Huntemann, Nils, Lange, Richard, Tamm, Christian, and Peik, Ekkehard

Subjects
Physics - Atomic Physics, Quantum Physics
Abstract

We devise a perturbation-immune version of Ramsey's method of separated oscillatory fields. Spectroscopy of an atomic clock transition without compromising the clock's accuracy is accomplished by actively balancing the spectroscopic responses from phase-congruent Ramsey probe cycles of unequal durations. Our simple and universal approach eliminates a wide variety of interrogation-induced line shifts often encountered in high precision spectroscopy, among them, in particular, light shifts, phase chirps, and transient Zeeman shifts. We experimentally demonstrate auto-balanced Ramsey spectroscopy on the light shift prone $^{171}$Yb$^{+}$ electric octupole optical clock transition and show that interrogation defects are not turned into clock errors. This opens up frequency accuracy perspectives below the $10^{-18}$ level for the Yb$^{+}$ system and for other types of optical clocks., Comment: 8 pages, 6 figures

Published
2017
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12. Analysis of thermal radiation in ion traps for optical frequency standards

Author

Doležal, Miroslav, Balling, Petr, Nisbet-Jones, Peter B R, King, Steven A, Jones, Jonathan M, Klein, Hugh A, Gill, Patrick, Lindvall, Thomas, Wallin, Anders E, Merimaa, Mikko, Tamm, Christian, Sanner, Christian, Huntemann, Nils, Scharnhorst, Nils, Leroux, Ian D, Schmidt, Piet O, Burgermeister, Tobias, Mehlstäubler, Tanja E, and Peik, Ekkehard

Subjects
Physics - Atomic Physics, Physics - Instrumentation and Detectors
Abstract

In many of the high-precision optical frequency standards with trapped atoms or ions that are under development to date, the AC Stark shift induced by thermal radiation leads to a major contribution to the systematic uncertainty. We present an analysis of the inhomogeneous thermal environment experienced by ions in various types of ion traps. Finite element models which allow the determination of the temperature of the trap structure and the temperature of the radiation were developed for 5 ion trap designs, including operational traps at PTB and NPL and further optimized designs. Models were refined based on comparison with infrared camera measurement until an agreement of better than 10% of the measured temperature rise at critical test points was reached. The effective temperature rises of the radiation seen by the ion range from 0.8 K to 2.1 K at standard working conditions. The corresponding fractional frequency shift uncertainties resulting from the uncertainty in temperature are in the 10-18 range for optical clocks based on the Sr+ and Yb+ E2 transitions, and even lower for Yb+ E3, In+ and Al+. Issues critical for heating of the trap structure and its predictability were identified and design recommendations developed., Comment: 16 pages, submitted to Metrologia

Published
2015
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13. Nuclear clocks based on resonant excitation of gamma-transitions

Author

Peik, Ekkehard and Okhapkin, Maxim

Subjects
Nuclear Experiment, Physics - Atomic Physics
Abstract

We review the ideas and concepts for a clock that is based on a radiative transition in the nucleus rather than in the electron shell. This type of clock offers advantages like an insensitivity against field-induced systematic frequency shifts and the opportunity to obtain high stability from interrogating many nuclei in the solid state. Experimental work concentrates on the low-energy (about 8 eV) isomeric transition in Th-229. We review the status of the experiments that aim at a direct optical observation of this transition and outline the plans for high-resolution laser spectroscopy experiments., Comment: Invited review paper for Comptes Rendus de Physique, thematic issue 'The Measurement of Time'

Published
2015
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15. Optical Atomic Clocks

Author

Ludlow, Andrew D., Boyd, Martin M., Ye, Jun, Peik, Ekkehard, and Schmidt, Piet O.

Subjects
Physics - Atomic Physics
Abstract

Optical atomic clocks represent the state-of-the-art in the frontier of modern measurement science. In this article we provide a detailed review on the development of optical atomic clocks that are based on trapped single ions and many neutral atoms. We discuss important technical ingredients for optical clocks, and we present measurement precision and systematic uncertainty associated with some of the best clocks to date. We conclude with an outlook on the exciting prospect for clock applications., Comment: 86 pages, 19 figures

Published
2014

16. Roadmap towards the redefinition of the second

Author

Dimarcq, Noel, primary, Gertsvolf, Marina, additional, Mileti, Gaetano, additional, Bize, Sebastien, additional, Oates, Christopher, additional, Peik, Ekkehard, additional, Calonico, Davide, additional, Ido, Tetsuya, additional, Tavella, Patrizia, additional, Meynadier, Frédéric, additional, Petit, Gerard, additional, Panfilo, Gianna, additional, Bartholomew, Jon, additional, Defraigne, Pascale, additional, Donley, E A, additional, Hedekvist, Per Olof, additional, Sesia, Ilaria, additional, Wouters, Michael, additional, Dubé, Pierre, additional, Fang, Fang, additional, Levi, Filippo, additional, Lodewyck, Jérôme, additional, Margolis, Helen S, additional, Newell, David B, additional, Slyusarev, Sergei, additional, Weyers, Stefan, additional, Uzan, Jean-Philippe, additional, Yasuda, Masami, additional, Yu, Dai-Hyuk, additional, Rieck, Carsten, additional, Schnatz, Harald, additional, Hanado, Yuko, additional, Fujieda, Miho, additional, Pottie, Paul-Eric, additional, Hanssen, James, additional, Malimon, A, additional, and Ashby, Neil, additional

Published
2023
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17. Laser frequency stabilization to a single ion

Author

Peik, Ekkehard, Schneider, Tobias, and Tamm, Christian

Subjects
Physics - Atomic Physics
Abstract

A fundamental limit to the stability of a single-ion optical frequency standard is set by quantum noise in the measurement of the internal state of the ion. We discuss how the interrogation sequence and the processing of the atomic resonance signal can be optimized in order to obtain the highest possible stability under realistic experimental conditions. A servo algorithm is presented that stabilizes a laser frequency to the single-ion signal and that eliminates errors due to laser frequency drift. Numerical simulations of the servo characteristics are compared to experimental data from a frequency comparison of two single-ion standards based on a transition at 688 THz in 171Yb+. Experimentally, an instability sigma_y(100 s)=9*10^{-16} is obtained in the frequency difference between both standards., Comment: 15 pages, 5 figures, submitted to J. Phys. B

Published
2005
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18. Atomic Clocks and Constraints on Variations of Fundamental Constants

Author

Karshenboim, Savely G., Flambaum, Victor, and Peik, Ekkehard

Subjects
Physics - Atomic Physics
Abstract

We consider an application of precision frequency measurements to searches for possible time variations of the fundamental physical constants. Current laboratory constraints on variations of the fine structure constant alpha and other fundamental constants are presented.

Published
2004

19. Optical clock comparison for Lorentz symmetry testing

Author

Sanner, Christian, Huntemann, Nils, Lange, Richard, Tamm, Christian, Peik, Ekkehard, Safronova, Marianna S., and Porsev, Sergey G.

Subjects
Clocks -- Optical properties -- Comparative analysis -- Testing, Lorentz transformation -- Analysis, Symmetry (Physics) -- Testing, Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

Questioning basic assumptions about the structure of space and time has greatly enhanced our understanding of nature. State-of-the-art atomic clocks.sup.1-3 make it possible to precisely test fundamental symmetry properties of spacetime and search for physics beyond the standard model at low energies of just a few electronvolts.sup.4. Modern tests of Einstein's theory of relativity try to measure so-far-undetected violations of Lorentz symmetry.sup.5; accurately comparing the frequencies of optical clocks is a promising route to further improving such tests.sup.6. Here we experimentally demonstrate agreement between two single-ion optical clocks at the 10.sup.-18 level, directly validating their uncertainty budgets, over a six-month comparison period. The ytterbium ions of the two clocks are confined in separate ion traps with quantization axes aligned along non-parallel directions. Hypothetical Lorentz symmetry violations.sup.5-7 would lead to periodic modulations of the frequency offset as the Earth rotates and orbits the Sun. From the absence of such modulations at the 10.sup.-19 level we deduce stringent limits of the order of 10.sup.-21 on Lorentz symmetry violation parameters for electrons, improving previous limits.sup.8-10 by two orders of magnitude. Such levels of precision will be essential for low-energy tests of future quantum gravity theories describing dynamics at the Planck scale.sup.4, which are expected to predict the magnitude of residual symmetry violations. Agreement between two single-ion clocks is demonstrated experimentally at the 10.sup.-18 level over a six-month period, confirming a key postulate of Einstein's theory of relativity with hundredfold-improved precision., Author(s): Christian Sanner [sup.1] [sup.5] , Nils Huntemann [sup.1] , Richard Lange [sup.1] , Christian Tamm [sup.1] , Ekkehard Peik [sup.1] , Marianna S. Safronova [sup.2] [sup.3] , Sergey G. [...]

Published
2019
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27. Indium Single-Ion Optical Frequency Standard

Author

Becker, Thomas, Eichenseer, Mario, Nevsky, Alexander Yu., Peik, Ekkehard, Schwedes, Christian, Skvortsov, Mikhail N., von Zanthier, Joachim, Walther, Herbert, Beig, R., editor, Ehlers, J., editor, Frisch, U., editor, Hepp, K., editor, Hillebrandt, W., editor, Imboden, D., editor, Jaffe, R. L., editor, Kippenhahn, R., editor, Lipowsky, R., editor, Löhneysen, H. v., editor, Ojima, I., editor, Weidenmüller, H. A., editor, Wess, J., editor, Zittartz, J., editor, Karshenboim, Savely G., editor, Bassani, F., editor, Pavone, F.S., editor, Inguscio, M., editor, and Hänsch, T.W., editor

Published
2001
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28. A dual-species optical clock to investigate variations of the fine-structure constant and test local position invariance

Author

Steinel, Martin, Shao, Hu, Lindvall, Thomas, Filzinger, Melina, Lange, Richard, Mehlstäubler, Tanja E., Peik, Ekkehard, and Huntemann, Nils

Abstract

Optical clocks realize transition frequencies between atomic energy levels with a relative uncertainty below 10-18. Frequency ratio measurements between optical clocks can reach even lower uncertainties if systematic shifts are common mode for the atomic references like environmental disturbances or result from the same atomic parameter. This precision can be used to search for violations of local position invariance by exploiting the dependence of transition frequencies on fundamental constants like the fine structure constant α. An ion particularly suited to this task is 171Yb+. It provides two optical clock transitions from the ground state to the first and second excited state, an electric octupole (E3) transition and an electric quadrupole (E2) transition, respectively. Because of the large mass of the ion, both transition frequencies show a large sensitivity on a variation of α and the difference in the electronic structure of the two excited states leads to a dependence of opposite sign. Repeated measurements of the ratio of the two transition frequencies provide the most stringent limits on temporal drifts of α and a potential dependence on the gravitational field [1]. To further enhance the performance of the 171Yb+ clocks and clearly distinguish clock shifts from variations of α, we employ 88Sr+ co-trapped in the same apparatus. 88Sr+ also features an E2 clock transition but its frequency only weakly depends on α. Furthermore, this ion can be used for sympathetic cooling and to investigate systematic frequency shifts of the 171Yb+ E3 transition on a magnified scale. We present progress towards combined clock operation with both species and a first precise measurement of the ratio of the 88Sr+ E2 and the 171Yb+ E3 transition frequencies. Here, we demonstrate an in-situ evaluation of the effective temperature of thermal radiation perturbing the ion and of oscillating magnetic fields using 88Sr+.

Published
2022

31. Optical frequency ratio of a ${}^{171}\mathrm{Yb}^+$ single-ion clock and a ${}^{87}\mathrm{Sr}$ lattice clock

Author

D��rscher, S��ren, Huntemann, Nils, Schwarz, Roman, Lange, Richard, Benkler, Erik, Lipphardt, Burghard, Sterr, Uwe, Peik, Ekkehard, and Lisdat, Christian

Subjects
Atomic Physics (physics.atom-ph), FOS: Physical sciences, Physics - Atomic Physics
Abstract

We report direct measurements of the frequency ratio of the 642 THz ${}^2S_{1/2} (F=0)$--${}^2F_{7/2} (F=3)$ electric octupole transition in ${}^{171}\mathrm{Yb}^+$ and the 429 THz ${}^1S_0$--${}^3P_0$ transition in ${}^{87}\mathrm{Sr}$. A series of 107 measurements has been performed at the Physikalisch-Technische Bundesanstalt between December 2012 and October 2019. Long-term variations of the ratio are larger than expected from the individual measurement uncertainties of few $10^{-17}$. The cause of these variations remains unknown. Even taking these into account, we find a fractional uncertainty of the frequency ratio of $2.5 \times 10^{-17}$, which improves upon previous knowledge by one order of magnitude. The average frequency ratio is $\nu_{\mathrm{Yb}^+} / \nu_{\mathrm{Sr}} = 1.495\,991\,618\,544\,900\,537(38)$. This represents one of the most accurate measurements between two different atomic species to date., Comment: 9 pages, 4 figures, 1 table

Published
2020

33. Neue Frequenznormale und Tests fundamentaler Physik

Author

Kulosa, André P., Mehlstäubler, Tanja E., Peik, Ekkehard, Schmidt, Piet O., and Surzhykov, Andrey

Subjects
Optische Kernuhr, Multi-Ionen-Uhren, Lokale Lorentz Invarianz, Hochgeladene Ionen, Thorium, Skalierbare Ionenfallen, QED Test, Iridium, Mini-EBIT, Neue Physik
Abstract

Enthalten in PTB-Mitteilungen. 128. Jahrgang, Heft 3, Dezember 2018. ISSN 0030-834X, Die Fortschritte, die in den letzten Jahren in der Entwicklung von optischen Uhren erzielt wurden, sind spektakulär und es scheint bei den am weitesten fortgeschrittenen Systemen auch bisher keine harte Begrenzung der erreichbaren Genauigkeit in Sicht zu sein. Dennoch, oder vielleicht auch deswegen, hat sich ein großes Interesse entwickelt, noch weitere und andersartige Ansätze für Atomuhren zu erforschen und den Kreis der untersuchten physikalischen Systeme auszuweiten. Die experimentellen Methoden der Speicherung und Laserkühlung von Atomen und Ionen sind so weit entwickelt, dass sie erfolgreich auf immer größere Gruppen von chemischen Elementen angewandt werden konnten. Bei gespeicherten Ionen ermöglicht das Gleichgewicht aus Coulomb-Abstoßung und der einschließenden Kraft einer Ionenfalle die Bildung von stabilen Strukturen unterschiedlicher Ionen, die in ihren inneren und äußeren Freiheitsgraden bis in den Quantenbereich kontrolliert und damit für Frequenzmessungen höchster Präzision verwendet werden können. Die mit einer größeren Ionenzahl erreichbare höhere Stabilität soll in der Multi-Ionen-Uhr ausgenutzt werden, die im ersten Abschnitt dieses Artikels eingeführt wird. Anschließend werden zwei physikalische Systeme mit großem Potenzial für präzise Uhren vorgestellt: hochgeladene Ionen und der Atomkern Thorium-229, der eine optische Resonanzfrequenz besitzt. Neben der Aussicht auf neue Uhren sehr hoher Genauigkeit begründen auch die Möglichkeiten für Tests fundamentaler Physik das Interesse an diesem Forschungsgebiet. Hochpräzise Frequenzvergleiche sollen genutzt werden, um nach kleinen Abweichungen von den Vorhersagen der etablierten physikalischen Theorien zu suchen, hervorgerufen von erwarteten Effekten „Neuer Physik“, wie zum Beispiel einer zeitlichen Veränderung von Naturkonstanten oder einer Kopplung der Uhren an die rätselhafte „Dunkle Materie“. Die hier vorgestellten, neuen Systeme zeichnen sich durch besonders hohe Empfindlichkeiten für solche Tests aus. Der Vergleich physikalisch möglichst unterschiedlicher Uhren erhöht die Wahrscheinlichkeit, wirklich neue Effekte nachzuweisen, und wird es erlauben, sie von experimentellen Störungen zu unterscheiden.

Published
2020
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34. Optical frequency measurement using fs-comb generators

Author

Schnatz, Harald, Lipphardt, Burghard, Degenhardt, Carsten, Peik, Ekkehard, Schneider, Tobias, Tamm, Christian, and Sterr, Uwe

Subjects
Light filters -- Properties, Light filters -- Design and construction
Published
2005

36. Opticlock: Transportable and Easy-to-Operate Optical Single-Ion Clock

Author

Ritter, Stephan, primary, Hafiz, Moustafa Abdel, additional, Arar, Bassem, additional, Bawamia, Ahmad, additional, Bergner, Klaus, additional, Biethahn, Maximilian, additional, Brakhane, Stefan, additional, Didier, Alexandre, additional, Fortágh, Jószef, additional, Halder, Matthäus, additional, Holzwarth, Ronald, additional, Huntemann, Nils, additional, Johanning, Michael, additional, Jördens, Robert, additional, Kaenders, Wilhelm, additional, Karlewski, Florian, additional, Kienle, Florian, additional, Krutzik, Markus, additional, Lessing, Maurice, additional, Mehlstäubler, Tanja Elisabeth, additional, Meschede, Dieter, additional, Peik, Ekkehard, additional, Peters, Achim, additional, Schmidt, Piet Oliver, additional, Siebeneich, Hendrik, additional, Stuhler, Jürgen, additional, Tamm, Christian, additional, Vogt, Enrico, additional, Wicht, Andreas, additional, and Wunderlich, Christof, additional

Published
2020
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39. Guidelines for developing optical clocks with 10-18 fractional frequency uncertainty

Author

Abdel-Hafiz, Moustafa, Ablewski, Piotr, Al-Masoudi, Ali, Álvarez Martínez, Héctor, Balling, Petr, Barwood, Geoffrey, Benkler, Erik, Bober, Marcin, Borkowski, Mateusz, Bowden, William, Ciurylo, Roman, Cybulski, Hubert, Didier, Alexandre, Dolezal, Miroslav, Dörscher, Sören, Falke, Stephan, Godun, Rachel M., Hamid, Ramiz, Hill, Ian R., Hobson, Richard, Huntemann, Nils, Le Coq, Yann, Le Targat, Rodolphe, Legero, Thomas, Lindvall, Thomas, Lisdat, Christian, Lodewyck, Jerome, Margolis, Helen S., Mehlstäubler, Tanja E., Peik, Ekkehard, Pelzer, Lennart, Pizzocaro, Marco, Rauf, Benjamin, Rolland, Antoine, Scharnhorst, Nils, Schioppo, Marco, Schmidt, Piet O., Schwarz, Roman, Senel, Cagri, Spethmann, Nicolas, Sterr, Uwe, Tamm, Christian, Thomsen, Jan W., Vianello, Alvise, and Zawada, Michal

Subjects
standards, optical frequency, ddc:530, guidelines, Dewey Decimal Classification::500 | Naturwissenschaften::530 | Physik, optical clock
Abstract

There has been tremendous progress in the performance of optical frequency standards since the first proposals to carry out precision spectroscopy on trapped, single ions in the 1970s. The estimated fractional frequency uncertainty of today's leading optical standards is currently in the 10−18 range, approximately two orders of magnitude better than that of the best caesium primary frequency standards. This exceptional accuracy and stability is resulting in a growing number of research groups developing optical clocks. While good review papers covering the topic already exist, more practical guidelines are needed as a complement. The purpose of this document is therefore to provide technical guidance for researchers starting in the field of optical clocks. The target audience includes national metrology institutes (NMIs) wanting to set up optical clocks (or subsystems thereof) and PhD students and postdocs entering the field. Another potential audience is academic groups with experience in atomic physics and atom or ion trapping, but with less experience of time and frequency metrology and optical clock requirements. These guidelines have arisen from the scope of the EMPIR project "Optical clocks with 1×10−18 uncertainty" (OC18). Therefore, the examples are from European laboratories even though similar work is carried out all over the world. The goal of OC18 was to push the development of optical clocks by improving each of the necessary subsystems: ultrastable lasers, neutral-atom and single-ion traps, and interrogation techniques. This document shares the knowledge acquired by the OC18 project consortium and gives practical guidance on each of these aspects. EU/Horizon2020/EMPIR/EU

Published
2019
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40. Experimentos para el nuevo SI, el Sistema Internacional de Unidades, Segunda edición 04 / 2019

Author

Scharf, Rainer, Middelmann, Thomas, Bauch, Andreas, Weyers, Stefan, Peik, Ekkehard, Schödel, René, Scherer, Hansjörg, Siegner, Uwe, Becker, Peter, Bettin, Horst, Gläser, Michael, Fischer, Joachim, Fellmuth, Bernd, Gaiser, Christof, Sperling, Armin, and Kück, Stefan

Subjects
Redefinición de las unidades de medida, Enfriamiento laser, Constante de Boltzmann, Interferometría, Unidad de medida básica segundo, Intensidad de corriente eléctrica, Termometría, Carga elemental, Unidad básica de medida mol, Constante de Avogadro, Patrón de frecuencia, Esfera de silicio, Patrones cuánticos, Balanza de Watt, Intensidad de luz, Transición del reloj, Sistema Internacional de Unidades (SI), Proyecto Avogadro, Constantes naturales, Velocidad de la luz, Unidades básicas de medida, Cantidad de sustancia, Tiempo, Unidad básica de medida candela, Efecto Josephson, Reloj atómico óptico, Reloj atómico de cesio, Constante de Planck, Temperatura, Unidad básica de medida metro, Reloj atómico, Bomba de electrones individuales, Efecto Hall cuántico, Longitud, Unidad básica de medida ampere, Termometría de gases usando las constantes dieléctricas, Unidad básica de medida Kelvin, Equivalente de radiación fotométrica, Convención del Metro, Masa, Unidad básica de medida kilogramo
Abstract

PTB-Mitteilungen. 126. año, número 2, Segunda edición, enero 2019

Published
2019
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41. Indium Single-Ion Optical Frequency Standard

Author

Becker, Thomas, primary, Eichenseer, Mario, additional, Nevsky, Alexander Yu., additional, Peik, Ekkehard, additional, Schwedes, Christian, additional, Skvortsov, Mikhail N., additional, von Zanthier, Joachim, additional, and Walther, Herbert, additional

Published
2001
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42. Geodetic methods to determine the relativistic redshift at the level of 10−18 in the context of international timescales: a review and practical results

Author

Denker, Heiner, Timmen, Ludger, Voigt, Christian, Weyers, Stefan, Peik, Ekkehard, Margolis, Helen S., Delva, Pacome, Wolf, Peter, Petit, Gérard, Leibniz Universität Hannover [Hannover] (LUH), Physikalisch-Technische Bundesanstalt [Braunschweig] (PTB), National Physical Laboratory [Teddington] (NPL), Systèmes de Référence Temps Espace (SYRTE), Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut national des sciences de l'Univers (INSU - CNRS)-Observatoire de Paris, Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Centre National de la Recherche Scientifique (CNRS), and Bureau International des Poids et Mesures (BIPM)

Subjects
Dewey Decimal Classification::500 | Naturwissenschaften::550 | Geowissenschaften, [PHYS]Physics [physics], Relativistic redshift, Chronometric levelling, ddc:550, Relativistic geodesy, Zero level reference gravity potential, International timescales, Caesium and optical atomic clocks, [PHYS.ASTR]Physics [physics]/Astrophysics [astro-ph], Terrestrial Time, Physics::Geophysics
Abstract

International audience; The frequency stability and uncertainty of the latest generation of optical atomic clocks is now approaching the one part in 1018 level. Comparisons between earthbound clocks at rest must account for the relativistic redshift of the clock frequencies, which is proportional to the corresponding gravity (gravitational plus centrifugal) potential difference. For contributions to international timescales, the relativistic redshift correction must be computed with respect to a conventional zero potential value in order to be consistent with the definition of Terrestrial Time. To benefit fully from the uncertainty of the optical clocks, the gravity potential must be determined with an accuracy of about 0.1m2s−2, equivalent to about 0.01 m in height. This contribution focuses on the static part of the gravity field, assuming that temporal variations are accounted for separately by appropriate reductions. Two geodetic approaches are investigated for the derivation of gravity potential values: geometric levelling and the Global Navigation Satellite Systems (GNSS)/geoid approach. Geometric levelling gives potential differences with millimetre uncertainty over shorter distances (several kilometres), but is susceptible to systematic errors at the decimetre level over large distances. The GNSS/geoid approach gives absolute gravity potential values, but with an uncertainty corresponding to about 2 cm in height. For large distances, the GNSS/geoid approach should therefore be better than geometric levelling. This is demonstrated by the results from practical investigations related to three clock sites in Germany and one in France. The estimated uncertainty for the relativistic redshift correction at each site is about 2×10−18.

Published
2018
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43. Hyperfine Spectroscopy Data Th-229 + Th-229M

Author

Thielking, Johannes, Okhapkin, Maxim V., Głowacki, Przemysław, Meier, David-Marcel, von der Wense, Lars, Seiferle, Benedict, Düllmann, Christoph E., Thirolf, Peter G., and Peik, Ekkehard

Abstract

Supplementary Information Nature 556:321-325. The figures show 29 of the 35 two-step excitation spectra recorded using the trap at LMU with copropagating beam configuration (six spectra do not contain detectable resonance features) and all spectra with counterpropagating configuration. The tables list the resonances and the corresponding transitions. See contents page for details.

Published
2018
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44. Row Data For Fig. 2 And 3 For The Article Bilous Et Al New J. Phys. 20, 013016 (2018)

Author

Bilous, Pavlo V, Peik, Ekkehard, and Pálffy, Adriana

Abstract

Row data for Figures 2 and 3 from the article Bilous et al New J. Phys. 20, 013016 (2018) are provided. The archive contains files with the rates of laser-induced electronic bridge process with an optical and a UV laser discussed in the article., {"references":["Bilous et al New J. Phys. 20, 013016 (2018)"]}

Published
2018
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45. Quantentechnologie mit Atomen und Photonen Teil I

Author

Mehlstäubler, Tanja E., Ertmer, Wolfgang, Sterr, Uwe, Lisdat, Christian, Kulosa, Andre, Müller, Jürgen, Peik, Ekkehard, Schmidt, Piet, Surzhykov, Andrey, and Ospelkaus, Christian

Subjects
Optische Kernuhr, Hochgeladene Ionen, Thorium, Quantentechnologie, Frequenzstandards, Ultrastabile Resonatoren, Iridium, Mini-EBIT, Zweite Quantenrevolution, Lokale Lorentz Invarianz, Optische Ionenuhr, Optische Uhren, Optische Gitteruhr, Strontium, Multi-Ionen-Fallen, QED Test, Ytterbium, Kryogene Silizium Resonatoren, Relativistische Geodäsie
Abstract

PTB-Mitteilungen. Band 128 (2018), Heft 3. ISSN 0030-834X

Published
2018
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46. Experiments for the New SI, 2nd Edition 07 / 2018

Author

Scharf, Rainer, Middelmann, Thomas, Bauch, Andreas, Weyers, Stefan, Peik, Ekkehard, Schödel, René, Scherer, Hansjörg, Siegner, Uwe, Becker, Peter, Bettin, Horst, Gläser, Michael, Fischer, Joachim, Fellmuth, Bernd, Gaiser, Christof, Sperling, Armin, and Kück, Stefan

Abstract

PTB-Mitteilungen. Volume 126 (2016), No. 2. ISSN 0030-834X

Published
2018
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47. Experimente für das neue Internationale Einheitensystem (SI), 2. Auflage 07 / 2018

Author

Scharf, Rainer, Middelmann, Thomas, Bauch, Andreas, Weyers, Stefan, Peik, Ekkehard, Schödel, René, Scherer, Hansjörg, Siegner, Uwe, Becker, Peter, Bettin, Horst, Gläser, Michael, Fischer, Joachim, Fellmuth, Bernd, Gaiser, Christof, Sperling, Armin, and Kück, Stefan

Subjects
Lichtgeschwindigkeit, Neudefinitionen der Einheiten, Zeit, Basiseinheit Candela, Stoffmenge, Temperatur, Quanten-Hall-Effekt, elektrische Stromstärke, Elementarladung, Atomuhr, Länge, Frequenznormal, Boltzmann-Konstante, Internationales Einheitensystem (SI), Dielektrizitätskonstanten-Gasthermometrie, Quantennormale, Basiseinheit Mol, Basiseinheit Kelvin, Siliziumkristallkugel, Avogadro-Konstante, Lichtstärke, Basiseinheit Meter, Basiseinheit Kilogramm, Optische Atomuhr, Wattwaage, Einzelelektronenpumpe (SET), Basiseinheit Ampere, Basiseinheit Sekunde, Thermometrie, Meterkonvention, Laserkühlung, Masse, Avogadro-Projekt, photometrisches Strahlungsäquivalent, Caesiumatomuhr, Basiseinheiten, Planck-Konstante, Josephson-Effekt, Uhrenübergang, Interferometrie, Naturkonstanten
Abstract

PTB-Mitteilungen. Band 126 (2016), Heft 2. ISSN 0030-834X

Published
2018
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49. Edición Especial Experimentos para el nuevo SI, el Sistema Internacional de Unidades

Author

Scharf, Rainer, Middelmann, Thomas, Bauch, Andreas, Weyers, Stefan, Peik, Ekkehard, Schödel, René, Scherer, Hansjörg, Siegner, Uwe, Becker, Peter, Bettin, Horst, Gläser, Michael, Fischer, Joachim, Fellmuth, Bernd, Gaiser, Christof, Sperling, Armin, and Kück, Stefan

Subjects
Redefinición de las unidades de medida, Enfriamiento laser, Constante de Boltzmann, Interferometría, Unidad de medida básica segundo, Intensidad de corriente eléctrica, Termometría, Carga elemental, Unidad básica de medida mol, Constante de Avogadro, Patrón de frecuencia, Esfera de silicio, Patrones cuánticos, Balanza de Watt, Intensidad de luz, Transición del reloj, Sistema Internacional de Unidades (SI), Proyecto Avogadro, Constantes naturales, Velocidad de la luz, Unidades básicas de medida, Cantidad de sustancia, Tiempo, Unidad básica de medida candela, Efecto Josephson, Reloj atómico óptico, Reloj atómico de cesio, Constante de Planck, Temperatura, Unidad básica de medida metro, Reloj atómico, Bomba de electrones individuales, Efecto Hall cuántico, Longitud, Unidad básica de medida ampere, Termometría de gases usando las constantes dieléctricas, Unidad básica de medida Kelvin, Equivalente de radiación fotométrica, Convención del Metro, Masa, Unidad básica de medida kilogramo
Abstract

PTB-Mitteilungen. 126. año, número 2, junio 2016

Published
2017
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50. 50 Jahre atomare Definition der Sekunde ; 50 Years of the Atomic Definition of the Second

Author

Stenger, Jörn, Graf, Johannes, Bauch, Andreas, Whibberley, Peter, Lombardi, Michael, Beutler, Gerhard, Kiefer, Claus, and Peik, Ekkehard

Subjects
Laserkühlung, Zeiteinheit, Caesium, Atomzeit, Caesium-Fontäne, Zeit- und Frequenzmessung, Internationales Einheitensystem SI, Ephemeridensekunde, Caesium-Atomuhr, Relativitätstheorie
Abstract

PTB-Mitteilungen, Band 127 (2017), Heft 3. ISSN 0030-834X, 3 Einführung 5 Die zweite Teilung der Stunde. Zur Geschichte der Sekunde 13 Atomare Definition der Zeiteinheit 1967–2017 33 NPL’s Contribution to the Introduction of the Caesium Second 41 A Historical Review of U. S. Contributions to the Atomic Definition of the SI Second 53 Atomuhren und Navigation mit Satelliten-Systemen (GNSS) 65 Einstein und die Zeit 73 Auf dem Weg zu einer Neudefinition der Sekunde: Was kommt nach Caesium? PTB-Innovationen 79 Ausgesuchte Technologieangebote

Published
2017
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