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48 results on '"Suzuyama, Tomonari"'

1. Demonstration of the nearly continuous operation of an $^{171}$Yb optical lattice clock for half a year

Author

Kobayashi, Takumi, Akamatsu, Daisuke, Hosaka, Kazumoto, Hisai, Yusuke, Wada, Masato, Inaba, Hajime, Suzuyama, Tomonari, Hong, Feng-Lei, and Yasuda, Masami

Subjects
Physics - Atomic Physics
Abstract

Optical lattice clocks surpass primary Cs microwave clocks in frequency stability and accuracy, and are promising candidates for a redefinition of the second in the International System of Units (SI). However, the robustness of optical lattice clocks has not yet reached a level comparable to that of Cs fountain clocks which contribute to International Atomic Time (TAI) by the nearly continuous operation. In this paper, we report the long-term operation of an $^{171}$Yb optical lattice clock with a coverage of 80.3% for half a year including uptimes of 93.9% for the first 24 days and 92.6% for the last 35 days. This enables a nearly dead-time-free frequency comparison of the optical lattice clock with TAI over months, which provides a link to the SI second with an uncertainty of low $10^{-16}$. By using this link, the absolute frequency of the $^{1}$S$_{0}-^{3}$P$_{0}$ clock transition of $^{171}$Yb is measured as 518 295 836 590 863.54(26) Hz with a fractional uncertainty of $5.0\times10^{-16}$. This value is in agreement with the recommended frequency of $^{171}$Yb as a secondary representation of the second.

Published
2020
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2. Potential for improving the local realization of coordinated universal time with a convolutional neural network

Author

Tanabe, Takehiko, Ye, Jiaxing, Suzuyama, Tomonari, Kobayashi, Takumi, Yamaguchi, Yu, and Yasuda, Masami

Subjects
Electrical Engineering and Systems Science - Signal Processing
Abstract

The time difference between coordinated universal time (UTC) and a hydrogen maser, which is a master oscillator for the local realization of UTC at the National Metrology Institute of Japan (NMIJ), has been predicted by using one of the deep learning techniques called a one-dimensional convolutional neural network (1D-CNN). Regarding the prediction result obtained by the 1D-CNN, we have observed improvement in the accuracy of prediction compared with that obtained by the Kalman filter. Although more investigations are required to conclude that the 1D-CNN can work as a good predictor, the present results suggest that the computational approach based on the deep learning technique may become a versatile method for improving the synchronous accuracy of UTC(NMIJ) relative to UTC., Comment: 4 pages, 4 figures

Published
2020
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3. Uncertainty evaluation of an $^{171}$Yb optical lattice clock at NMIJ

Author

Kobayashi, Takumi, Akamatsu, Daisuke, Hisai, Yusuke, Tanabe, Takehiko, Inaba, Hajime, Suzuyama, Tomonari, Hong, Feng-Lei, Hosaka, Kazumoto, and Yasuda, Masami

Subjects
Physics - Atomic Physics
Abstract

We report an uncertainty evaluation of an $^{171}$Yb optical lattice clock with a total fractional uncertainty of $3.6\times10^{-16}$, which is mainly limited by the lattice-induced light shift and the blackbody radiation shift. Our evaluation of the lattice-induced light shift, the density shift, and the second-order Zeeman shift is based on an interleaved measurement where we measure the frequency shift using the alternating stabilization of a clock laser to the $\mathrm{6s^{2}\,^{1}S_{0}-6s6p\,^{3}P_{0}}$ clock transition with two different experimental parameters. In the present evaluation, the uncertainties of two sensitivity coefficients for the lattice-induced hyperpolarizability shift $d$ incorporated in a widely-used light shift model by RIKEN and the second-order Zeeman shift $a_{\mathrm{Z}}$ are improved compared with the uncertainties of previous coefficients. The hyperpolarizability coefficient $d$ is determined by investigating the trap potential depth and the light shifts at the lattice frequencies near the two-photon transitions $\mathrm{6s6p^{3}P_{0}-6s8p^{3}P_{0}}$, $\mathrm{6s8p^{3}P_{2}}$, and $\mathrm{6s5f^{3}F_{2}}$. The obtained values are $d=-1.1(4)$ $\mathrm{\mu}$Hz and $a_{\mathrm{Z}}=-6.6(3)$ Hz/mT$^{2}$. These improved coefficients should reduce the total systematic uncertainties of Yb lattice clocks at other institutes.

Published
2019
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4. Generation of a precise time scale assisted by a near-continuously operating optical lattice clock

Author

Kobayashi, Takumi, primary, Akamatsu, Daisuke, additional, Hosaka, Kazumoto, additional, Hisai, Yusuke, additional, Nishiyama, Akiko, additional, Kawasaki, Akio, additional, Wada, Masato, additional, Inaba, Hajime, additional, Tanabe, Takehiko, additional, Suzuyama, Tomonari, additional, Hong, Feng-Lei, additional, and Yasuda, Masami, additional

Published
2024
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5. Improved frequency measurement of the $^1S_{0}$-$^3P_{0}$ clock transition in $^{87}$Sr using the Cs fountain clock at NMIJ as a transfer oscillator

Author

Tanabe, Takehiko, Akamatsu, Daisuke, Kobayashi, Takumi, Takamizawa, Akifumi, Yanagimachi, Shinya, Ikegami, Takeshi, Suzuyama, Tomonari, Inaba, Hajime, Okubo, Sho, Yasuda, Masami, Hong, Feng-Lei, Onae, Atsushi, and Hosaka, Kazumoto

Subjects
Physics - Atomic Physics
Abstract

We performed an absolute frequency measurement of the $^1S_{0}$-$^3P_{0}$ transition in $^{87}$Sr with a fractional uncertainty of $1.2 \times 10^{-15}$, which is less than one third that of our previous measurement. A caesium fountain atomic clock was used as a transfer oscillator to reduce the uncertainty of the link between a strontium optical lattice clock and the SI second. The absolute value of the transition frequency is 429 228 004 229 873.56(49) Hz., Comment: accepted for publication in Journal of the Physical Society of Japan, 7 pages, 2 figures

Published
2015
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6. Spectroscopy and frequency measurement of the $^{87}$Sr clock transition by laser linewidth transfer using an optical frequency comb

Author

Akamatsu, Daisuke, Inaba, Hajime, Hosaka, Kazumoto, Yasuda, Masami, Onae, Atsushi, Suzuyama, Tomonari, Amemiya, Masaki, and Hong, Feng-Lei

Subjects
Physics - Atomic Physics
Abstract

We perform spectroscopic observations of the 698-nm clock transition in $^{87}$Sr confined in an optical lattice using a laser linewidth transfer technique. A narrow-linewidth laser interrogating the clock transition is prepared by transferring the linewidth of a master laser (1064 nm) to that of a slave laser (698 nm) with a high-speed controllable fiber-based frequency comb. The Fourier-limited spectrum is observed for an 80-ms interrogating pulse. We determine that the absolute frequency of the 5s$^{2}$ $^{1}$S$_{0}$ - 5s5p $^{3}$P$_{0}$ clock transition in $^{87}$Sr is 429 228 004 229 872.0 (1.6) Hz referenced to the SI second., Comment: 5 pages, 4 figures

Published
2014
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7. A broadband VLBI system using transportable stations for geodesy and metrology: an alternative approach to the VGOS concept

Author

Sekido, Mamoru, Takefuji, Kazuhiro, Ujihara, Hideki, Kondo, Tetsuro, Tsutsumi, Masanori, Kawai, Eiji, Hachisu, Hidekazu, Nemitz, Nils, Pizzocaro, Marco, Clivati, Cecilia, Perini, Federico, Negusini, Monia, Maccaferri, Giuseppe, Ricci, Roberto, Roma, Mauro, Bortolotti, Claudio, Namba, Kunitaka, Komuro, Jun’ichi, Ichikawa, Ryuichi, Suzuyama, Tomonari, Watabe, Ken-ichi, Leute, Julia, Petit, Gérard, Calonico, Davide, and Ido, Tetsuya

Published
2021
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8. Observation site atmospheric phase fluctuations observed by three-element VLBI

Author

Nishio, Masanori, Liu, Qinghui, Miyazaki, Tomoyuki, Hirata, Masako, Kuroki, Yoshinobu, Kusuhata, Masahiko, Iwashita, Naoki, Minamitake, Chikara, Yasuda, Shigeru, Iino, Naoko, Omodaka, Toshihiro, Kameya, Osamu, Kawano, Nobuyuki, Suzuyama, Tomonari, Shibuya, Yasuhisa, and Kurihara, Noriyuki

Subjects
Interferometers -- Analysis, Mathematical models -- Usage, Business, Computers, Electronics, Electronics and electrical industries
Abstract

The beacon signals from a geostationary satellite were observed using three-element very long baseline interferometry (VLBI), and the phase fluctuations along the baselines between three sites were obtained. The atmospheric phase fluctuations at each observation site were derived from the baseline phase fluctuation data. The fluctuations were classified into three time-interval regions based on the dependence of the Allan standard deviation of the fluctuations on the time interval. In the region where the interval was less than a few seconds and in the one where it was greater than one hundred seconds, the curve of the Allan standard deviation was steep and showed the property of white phase noise. In the region between these two regions, the dependence of the Allan standard deviation on the time interval was weak. The magnitude of the Allan standard deviations for the three observation sites showed time variations in the region where the time interval was longer than a few seconds. Comparison with the weather conditions suggested that the time variations of the Allan standard deviation reflected atmospheric instability above the sites. Index Terms--Allan standard deviation, atmospheric stability model, beacon wave, geostationary satellite, observation site atmospheric phase fluctuation, very long baseline interferometer (VLBI).

Published
2007

9. Statistical characteristics of atmospheric phase fluctuations observed by a VLBI system using a beacon wave from a geostationary satellite

Author

Liu, Qinghui, Nishio, Masanori, Yamamura, Kunihiro, Miyazaki, Tomoyuki, Hirata, Masako, Suzuyama, Tomonari, Kuji, Seisuke, Iwadate, Kenzaburou, Kameya, Osamu, and Kawano, Nobuyuki

Subjects
Wave propagation -- Research, Geostationary satellites -- Research, Mobile communication systems -- Research, Wireless communication systems -- Research, Atmosphere -- Research, Earth -- Atmosphere, Earth -- Research, Wireless technology, Business, Computers, Electronics, Electronics and electrical industries
Abstract

This paper reports the statistical characteristics of phase fluctuations obtained by a very long baseline interferometry, which received beacon waves from a geostationary satellite. Observations were made in different weather conditions by the 6-m Kagoshima and the 10-m Mizusawa radio telescopes, which were 1284 km apart from one another. Atmospheric phase fluctuations ranging from 0.2 to about 1000 s were detected. To study a variety of statistical characteristics of these phase fluctuations, the Allan standard deviation, [[sigma].sub.y] ([tau]), the temporal structure function, [D.sub.[phi]] ([tau]), and the square root of power spectrum, [D.sub.[phi]] (f), were calculated from the observation results. These qualities were found to depend on the time interval [tau] or the frequency f (f : 1/2[tau]) as follows: [[sigma].sub.y] ([tau]) [infinity] [[tau].sup.0.6] [[tau].sup.0.3], [D.sub.[phi]] ([tau]) [infinity] [[tau].sup.0.9], [[tau].sup.1.3] for 0.2 s < [tau] < 1.5 s and 1.5 s < [tau] < 400 s. [G.sub.[phi]](f) [infinity] [f.sup.-0.8] for 2.5 Hz > f > 0.33 Hz and [G.sub.[phi]](f) [infinity] [f.sup.-1.3] for 0.33 Hz > f > 0.00125 Hz. The curves of [[delta].sub.y] ([tau]) and [D.sub.[phi]]([tau]) exhibited shifts whose magnitudes followed the weather order clear, cloudy, and rainy. For [tau] > 1.5 s (or f < 0.33 Hz), the experimental results were consistent with the theoretical values predicted by Kolmogorov's turbulence theory and a frozen-screen model, but for [tau] < 1.5 s (or f > 0.33 Hz), the model has to be modified to explain the experimental results. Index Terms--Allan standard deviation, atmospheric phase fluctuation, beacon wave from geostationary satellite, temporal structure function, very long baseline interferometer (VLBI).

Published
2005

13. Status report on an 171Yb optical lattice clock at NMIJ

Author

Kobayashi, Takumi, primary, Akamatsu, Daisuke, additional, Hisai, Yusuke, additional, Tanabe, Takehiko, additional, Inaba, Hajime, additional, Suzuyama, Tomonari, additional, Hong, Feng-Lei, additional, Hosaka, Kazumoto, additional, and Yasuda, Masami, additional

Published
2019
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16. Improved Frequency Measurement of the 1S0–3P0 Clock Transition in 87Sr Using a Cs Fountain Clock as a Transfer Oscillator

Author

Tanabe, Takehiko, primary, Akamatsu, Daisuke, additional, Kobayashi, Takumi, additional, Takamizawa, Akifumi, additional, Yanagimachi, Shinya, additional, Ikegami, Takeshi, additional, Suzuyama, Tomonari, additional, Inaba, Hajime, additional, Okubo, Sho, additional, Yasuda, Masami, additional, Hong, Feng-Lei, additional, Onae, Atsushi, additional, and Hosaka, Kazumoto, additional

Published
2015
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21. Remote Synchronization Experiments for Future Quasi-Zenith Satellite System Using Current Geostationary Satellites

Author

NATIONAL INST OF ADVANCED INDUSTRIAL SCIENCE AND TECHNOLOGY TSUKUBA IBARAKI (JAPAN), Iwata, Toshiaki, Suzuyama, Tomonari, Imae, Michito, Hashibe, Yuji, Fukui, Masato, NATIONAL INST OF ADVANCED INDUSTRIAL SCIENCE AND TECHNOLOGY TSUKUBA IBARAKI (JAPAN), Iwata, Toshiaki, Suzuyama, Tomonari, Imae, Michito, Hashibe, Yuji, and Fukui, Masato

Abstract

Japan's Quasi-Zenith Satellite System (QZSS) is scheduled for launching in 2010. We have been conducting research on the remote synchronization system for the onboard crystal oscillator (RESSOX), which does not require onboard atomic clocks, for the QZSS since 2003. RESSOX reduces overall cost and satellite power consumption, as well as onboard weight and volume, and is expected to have a longer lifetime than a system with onboard atomic clocks. Since a QZSS does not yet exist, we have been conducting synchronization experiments using current geostationary satellites (JCSAT-1B or IS-4 [formerly PAS-4]) to confirm that RESSOX is an excellent system for timing synchronization. For the experiments using JCSAT-1B, we have already reported that synchronization within 10 ns was achieved when feedback information was used. Since JCSAT-1B was located at an elevation angle of 46.5 degrees at our institute, however, the effect of tropospheric delay was not very large. To examine the applicability of RESSOX under more severe conditions, IS-4 was selected. IS-4 is located at an elevation angle of 7.9 degrees at our institute, which means that the effect of tropospheric delay is large (in the case of the QZSS, the smallest elevation angle at Okinawa station is approximately 10 degrees). In this paper, we will present the experimental setup, the results of uplink experiments and feedback experiments, and some discussions on the use of RESSOX with the QZSS., Prepared in cooperation with Space Engineering Development Co., Ltd., Japan and the University of Tokyo, Japan. Presented at the Annual Precise Time and Time Interval Systems and Applications Meeting (40th) in Reston, Virginia on 1-4 Dec 2008 and published in proceedings of the same, p375-386. See also ADM002186. The original document contains color images.

Published
2008

23. Ground Experiments of Remote Synchronization for Onboard Crystal Oscillator of Quasi-Zenith Satellites - Use of Multiple Positioning Signals for Feedback Control

Author

NATIONAL INST OF ADVANCED INDUSTRIAL SCIENCE AND TECHNOLOGY TSUKUBA IBARAKI (JAPAN), Iwata, Toshiaki, Imae, Michito, Suzuyama, Tomonari, Kawasaki, Yoshikatsu, Takasaki, Naoto, Kokubu, Kenji, Iwasaki, Akira, Fukushima, Satoshi, Hashibe, Yuji, Tappero, Fabrizio, NATIONAL INST OF ADVANCED INDUSTRIAL SCIENCE AND TECHNOLOGY TSUKUBA IBARAKI (JAPAN), Iwata, Toshiaki, Imae, Michito, Suzuyama, Tomonari, Kawasaki, Yoshikatsu, Takasaki, Naoto, Kokubu, Kenji, Iwasaki, Akira, Fukushima, Satoshi, Hashibe, Yuji, and Tappero, Fabrizio

Abstract

We have developed a new control method for the quasi-zenith satellite (QZS) remote synchronization system for the onboard crystal oscillator (RESSOX). The new method utilizes L1 and L2 positioning signals of the QZS system. We have proved that precise orbit prediction or estimation of delays such as those caused by the ionosphere and troposphere is not necessary to realize RESSOX technology. L1/L2/Ku-band signal delay caused by the ionosphere and other sources is calculated separately using RESSOX feedback control. The results of Ku-band delay are used to generate the appropriate control signal. The results show that synchronization within 2 ns between the ground-site atomic clock and the QZS site is achievable. We also confirmed that the crystal oscillator that has the same specifications as the actual onboard crystal oscillator could be controlled by the same method as the prototype in the test bed., See also ADM002029. Presented at the Annual Precise Time and Time Interval (PTTI) Meeting (38th), held in Reston, VA, on 5-7 Dec 2006. Published in the proceedings of the meeting, p153-174, 2007. Prepared in cooperation with University of Tokyo, Japan; Space Engineering Development Company, Japan; and University of New South Wales, Australia. The original document contains color images.

Published
2007

25. Improved Absolute Frequency Measurement of the $^{171}$Yb Optical Lattice Clock towards a Candidate for the Redefinition of the Second

Author

Yasuda, Masami, primary, Inaba, Hajime, additional, Kohno, Takuya, additional, Tanabe, Takehiko, additional, Nakajima, Yoshiaki, additional, Hosaka, Kazumoto, additional, Akamatsu, Daisuke, additional, Onae, Atsushi, additional, Suzuyama, Tomonari, additional, Amemiya, Masaki, additional, and Hong, Feng-Lei, additional

Published
2012
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30. Remote Synchronization System of Quasi-Zenith Satellites Using Multiple Positioning Signals for Feedback Control

Author

IWATA, TOSHIAKI, primary, KAWASAKI, YOSHIKATSU, additional, IMAE, MICHITO, additional, SUZUYAMA, TOMONARI, additional, MATSUZAWA, TAKASHI, additional, FUKUSHIMA, SATOSHI, additional, HASHIBE, YUJI, additional, TAKASAKI, NAOTO, additional, KOKUBU, KENJI, additional, IWASAKI, AKIRA, additional, TAPPERO, FABRIZIO, additional, DEMPSTER, ANDREW, additional, and TAKAHASHI, YASUHIRO, additional

Published
2007
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34. Computer Simulation of Remote Synchronization Syst...

Author

Iwata, Toshiaki, primary, Tappero, Fabrizio, additional, Imae, Michito, additional, Fukuyama, Yasuhiro, additional, Suzuyama, Tomonari, additional, Hagimoto, Ken, additional, Murakami, Hiroshi, additional, Ikegami, Takeshi, additional, Takasaki, Naoto, additional, Iwasaki, Akira, additional, and Nakajima, Ken, additional

Published
2005
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39. J-Net Galactic-Plane Survey of VLBI Radio Sources for VLBI Exploration of Radio Astrometry (VERA)

Author

Honma, Mareki, primary, Oyama, Tomoaki, additional, Hachisuka, Kazuya, additional, Sawada-Satoh, Satoko, additional, Sebata, Kouichi, additional, Miyoshi, Makoto, additional, Kameya, Osamu, additional, Manabe, Seiji, additional, Kawaguchi, Noriyuki, additional, Sasao, Tetsuo, additional, Kameno, Seiji, additional, Fujisawa, Kenta, additional, Shibata, Katsunori M., additional, Bushimata, Takeshi, additional, Miyaji, Takeshi, additional, Kobayashi, Hideyuki, additional, Inoue, Makoto, additional, Imai, Hiroshi, additional, Araki, Hiroshi, additional, Hanada, Hideo, additional, Iwadate, Kenzaburo, additional, Kaneko, Yoshihisa, additional, Kuji, Seisuke, additional, Sato, Katsuhisa, additional, Tsuruta, Seiitsu, additional, Sakai, Satoshi, additional, Tamura, Yoshiaki, additional, Horiai, Koji, additional, Hara, Tadayoshi, additional, Yokoyama, Koichi, additional, Nakajima, Junichi, additional, Kawai, Eiji, additional, Okubo, Hiroshi, additional, Osaki, Hiro, additional, Koyama, Yasuhiro, additional, Sekido, Mamoru, additional, Suzuyama, Tomonari, additional, Ichikawa, Ryuichi, additional, Kondo, Tetsuro, additional, Sakai, Kensei, additional, Wada, Katsuhiro, additional, Harada, Naohiko, additional, Tougou, Norihiro, additional, Fujishita, Mitsumi, additional, Shimizu, Rie, additional, Kawaguchi, Satomi, additional, Yoshimura, Akane, additional, Nakamura, Masakazu, additional, Hasegawa, Wataru, additional, Morisaki, Satoshi, additional, Kamohara, Ryuichi, additional, Funaki, Tomoe, additional, Yamashita, Naoko, additional, Watanabe, Teruhiko, additional, Shimoikura, Tomomi, additional, Nishio, Masanori, additional, Omodaka, Toshihiro, additional, and Okudaira, Atuya, additional

Published
2000
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40. Precise Frequency Comparison System Using Bidirectional Optical Amplifiers.

Author

Amemiya, Masaki, Imae, Michito, Fujii, Yasuhisa, Suzuyama, Tomonari, Feng-Lei Hong, and Takamoto, Masao

Subjects
OPTICAL amplifiers, WAVELENGTH division multiplexing, FREQUENCY standards, FREQUENCY spectra, TELECOMMUNICATION systems, OPTICAL losses, FREQUENCY stability, OPTICAL fibers
Abstract

Precise frequency comparisons are becoming more urgent given the recent rapid progress in next-generation frequency standards. This paper describes a new type of bidirectional optical amplifier that overcomes the fiber loss limits that have prevented accurate frequency comparisons between widely separated places; such comparison is realized by bidirectionally transmitting wavelength-division-multiplexed (WDM) signals along a single fiber. The proposed optical amplifier has an optical isolator in each two-way channel divided by wavelength filters to suppress the optical reflection that causes amplification instability. The additional insertion optical loss due to this method is about 1.5 dB. The optical gain greater than 30 dB is obtained for both signals with good optical isolation of 65 dB. A radio-frequency reference signal can directly be sent by simple intensity modulation and direct detection (IM-DD) devices in the 1550-nm region widely used in telecommunication networks. Phase comparisons of the received signals and the frequency standards at each terminal are used for frequency comparisons. The amplifier is tested in the field using two hydrogen masers. A 120-km fiber with loss of 52.5 dB is used to connect the National Metrology Institute of Japan (NMIJ) to the University of Tokyo. Because of this loss, an amplifier is needed to realize sufficient receiving power. The frequency stability of the system with a 10-MHz direct transmission is evaluated by returning the optical signal from a halfway point [55 km from the NMIJ] where the amplifier is installed. The result is 2.6 x 10-16 (Allan deviation) with the averaging time of 7 x 104 s. The laboratory result is 8.7 x 10-17 (τ = 4 x 104 s). The amplifier's long-term stability is promising for stable frequency dissemination in addition to precise frequency comparisons. [ABSTRACT FROM AUTHOR]

Published
2010
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41. Simple Time and Frequency Dissemination Method Using Optical Fiber Network.

Author

Amemiya, Masaki, Imae, Michito, Fujii, Yasuhisa, Suzuyama, Tomonari, and Ohshima, Shin-Ichi

Subjects
DATA transmission systems, DIGITAL signal processing, DIGITAL electronics, DIGITAL media, SIGNAL generators, ELECTRIC oscillators, ELECTRONIC appliance testing, OPTICAL waveguides, OPTICAL communications
Abstract

This paper describes a simple and cost-effective method of frequency dissemination. In current digital communication networks, node clocks are hierarchically synchronized to the atomic master clock through fiber links. This synchronized network is used as an intermediate link for remote calibration services like the global positioning system common-view method. A prototype reference signal generator has been developed for recovering the communication clock signal and synthesizing a 10-MHz signal from it. The generator output frequency at the client site can be traced to coordinated universal time (UTC) National Metrology Institute of Japan (NMIJ) with some uncertainty, depending on the stability of the node clocks and the distance from the master clock. The stability performance of the generated reference signal has been tested at Okinawa-the farthest prefecture from Tokyo, where the master clock is located (baseline distance of 1500 km). The primary rate (1.544 MHz) for telecommunication services was chosen for the 10-MHz signal generation in the experiment. A sinusoidal phase fluctuation within a one-day period is dominantly observed. This fluctuation is mainly caused by fiber expansion and contraction due to normal daily temperature changes. It degrades the stability (Allan deviation) to the level of 5 × 10-13 τ = 40 000 s, which is almost half a day). However, the major part of the phase fluctuation can be canceled by averaging a full day's data. In this case, the Allan deviation becomes 1 ×-13 which is obtained at Okinawa over ten consecutive days of measurement. The worst average frequency offset relative to UTC (NMIJ) (one-day averaging) is -6.3 × 10-13. The results indicate that this method promises to be suitable for most applications, providing an uncertainty of less than 1 × 10-12 at an averaging time of one day. [ABSTRACT FROM AUTHOR]

Published
2008
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42. Remote Synchronization Simulation of Onboard Crystal Oscillator for QZSS Using L1 /L2/L5 Signals for Error Adjustment.

Author

Iwata, Toshiaki, Imae, Michito, Suzuyama, Tomonari, Hashibe, Yuji, Fukushima, Satoshi, Iwasaki, Akira, Kokubu, Kenji, Tappero, Fabrizio, and Dempster, Andrew G.

Subjects
ARTIFICIAL satellites in navigation, SYNCHRONIZATION, CRYSTAL oscillators, GLOBAL Positioning System, NAVIGATION equipment, SIGNAL processing, TIME measurements
Abstract

The article discusses an error adjustment process for the remote synchronization of the Japanese quasi-zenith satellite system's (QZSS') onboard crystal oscillator. For the synchronization process, three different frequency positioning signals (L1/L2/L5) are used. The QZSS, which is a three-satellite navigation/positioning system, was developed to enhance the positioning performance of the global positioning system (GPS) that is currently used in urban areas. The National Institute of Advanced Industrial Science and Technology, Japan, has planned a new time-keeping method of the QZSS, which is called the remote synchronization system for an onboard crystal oscillator.

Published
2008
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46. Spectroscopy and frequency measurement of the 87Sr clock transition by laser linewidth transfer using an optical frequency comb.

Author

Akamatsu, Daisuke, Inaba, Hajime, Hosaka, Kazumoto, Yasuda, Masami, Onae, Atsushi, Suzuyama, Tomonari, Amemiya, Masaki, and Hong, Feng-Lei

Abstract

We performed spectroscopic observations of the 698-nm clock transition in 87Sr confined in an optical lattice using a laser linewidth transfer technique. A narrow-linewidth laser interrogating the clock transition was prepared by transferring the linewidth of a master laser (1064 nm) to that of a slave laser (698 nm) with a high-speed controllable fiber-based frequency comb. The Fourier-limited spectrum was then observed for an 80-ms interrogating pulse. We determined that the absolute frequency of the 5s21S0–5s5p 3P0 clock transition in 87Sr is 429 228 004 229 872.0 (1.6) Hz referenced to the SI second. [ABSTRACT FROM AUTHOR]

Published
2014
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47. Improved Absolute Frequency Measurement of the 171Yb Optical Lattice Clock towards a Candidate for the Redefinition of the Second.

Author

Yasuda, Masami, Inaba, Hajime, Kohno, Takuya, Tanabe, Takehiko, Nakajima, Yoshiaki, Hosaka, Kazumoto, Akamatsu, Daisuke, Onae, Atsushi, Suzuyama, Tomonari, Amemiya, Masaki, and Hong, Feng-Lei

Abstract

We demonstrate an improved absolute frequency measurement of the 1S03P0 clock transition at 578 nm in 171Yb atoms in a one-dimensional optical lattice. The clock laser linewidth is reduced to ≈2 Hz by phase-locking the laser to an ultrastable neodymium-doped yttrium aluminum garnet (Nd:YAG) laser at 1064 nm through an optical frequency comb with an intracavity electrooptic modulator to achieve a high servo bandwidth. The absolute frequency is determined as 518 295 836 590 863.1(2.0) Hz relative to the SI second, and will be reported to the International Committee for Weights and Measures. [ABSTRACT FROM AUTHOR]

Published
2012
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48. Uncertainty Evaluation of an 171 Yb Optical Lattice Clock at NMIJ.

Author

Kobayashi T, Akamatsu D, Hisai Y, Tanabe T, Inaba H, Suzuyama T, Hong FL, Hosaka K, and Yasuda M

Abstract

We report an uncertainty evaluation of an 171 Yb optical lattice clock with a total fractional uncertainty of 3.6×10 -16 , which is mainly limited by the lattice-induced light shift and the blackbody radiation shift. Our evaluation of the lattice-induced light shift, the density shift, and the second-order Zeeman shift is based on an interleaved measurement where we measure the frequency shift using the alternating stabilization of a clock laser to the 6s 2 1 S 0 -6s6p 3 P 0 clock transition with two different experimental parameters. In the present evaluation, the uncertainties of two sensitivity coefficients for the lattice-induced hyperpolarizability shift d incorporated in a widely used light shift model by RIKEN and the second-order Zeeman shift a Z are improved compared with the uncertainties of previous coefficients. The hyperpolarizability coefficient d is determined by investigating the trap potential depth and the light shifts at the lattice frequencies near the two-photon transitions 6s6p 3 P 0 -6s8p 3 P 0 , 6s8p 3 P 2 , and 6s5f 3 F 2 . The obtained values are d=-1.1(4) μ Hz and a Z =-6.6(3) Hz/mT 2 . These improved coefficients should reduce the total systematic uncertainties of Yb lattice clocks at other institutes.

Published
2018
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