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37 results on '"Kuno Takuma"'

1. Single electron routing in a silicon quantum-dot array

Author

Utsugi, Takeru, Kuno, Takuma, Lee, Noriyuki, Tsuchiya, Ryuta, Mine, Toshiyuki, Hisamoto, Digh, Saito, Shinichi, and Mizuno, Hiroyuki

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

The ability to transport single electrons on a quantum dot array dramatically increases the freedom in designing quantum computation schemes that can be implemented on solid-state devices. So far, however, routing schemes to precisely control the transport paths of single electrons have yet to be established. Here, we propose a silicon single-electron router that transports pumped electrons along the desired route on the branches of a T-shaped quantum dot array by inputting a synchronous phase-controlled signal to multiple gates. Notably, we show that it is possible to achieve a routing accuracy above 99% by implementing assist gates in front of the branching paths. The results suggest new possibilities for fast and accurate transport of single electrons on quantum dot arrays., Comment: 10 pages, 14 figures

Published
2023

3. Site-resolved imaging of single atoms with a Faraday quantum gas microscope

Author

Yamamoto, Ryuta, Kobayashi, Jun, Kato, Kohei, Kuno, Takuma, Sakura, Yuto, and Takahashi, Yoshiro

Subjects
Condensed Matter - Quantum Gases, Physics - Atomic Physics
Abstract

We successfully demonstrate a quantum gas microscopy using the Faraday effect which has an inherently non-destructive nature. The observed Faraday rotation angle reaches 3.0(2) degrees for a single atom. We reveal the non-destructive feature of this Faraday imaging method by comparing the detuning dependence of the Faraday signal strength with that of the photon scattering rate. We determine the atom distribution with deconvolution analysis. We also demonstrate the absorption and the dark field Faraday imaging, and reveal the different shapes of the point spread functions for these methods, which are fully explained by theoretical analysis. Our result is an important first step towards an ultimate quantum non-demolition site-resolved imaging and furthermore opens up the possibilities for quantum feedback control of a quantum many-body system with a single-site resolution., Comment: 8 pages, 8 figures

Published
2016
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4. An ytterbium quantum gas microscope with narrow-line laser cooling

Author

Yamamoto, Ryuta, Kobayashi, Jun, Kuno, Takuma, Kato, Kohei, and Takahashi, Yoshiro

Subjects
Condensed Matter - Quantum Gases, Physics - Atomic Physics
Abstract

We demonstrate site-resolved imaging of individual bosonic $^{174}\mathrm{Yb}$ atoms in a Hubbard-regime two-dimensional optical lattice with a short lattice constant of 266 nm. To suppress the heating by probe light with the $^1S_0$-$^1P_1$ transition of the wavelength $\lambda$ = 399 nm for high-resolution imaging and preserve atoms at the same lattice sites during the fluorescence imaging, we simultaneously cool atoms by additionally applying narrow-line optical molasses with the $^1S_0$-$^3P_1$ transition of the wavelength $\lambda$ = 556 nm. We achieve a low temperature of $T = 7.4(1.3)\ \mu\mathrm{K}$, corresponding to a mean oscillation quantum number along the horizontal axes of 0.22(4) during imaging process. We detect on average 200 fluorescence photons from a single atom within 400 ms exposure time, and estimate the detection fidelity of 87(2)%. The realization of a quantum gas microscope with enough fidelity for Yb atoms in a Hubbard-regime optical lattice opens up the possibilities for studying various kinds of quantum many-body systems such as Bose and Fermi gases, and their mixtures, and also long-range-interacting systems such as Rydberg states., Comment: 14 pages, 6 figures

Published
2015
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8. Single-Electron Charge Sensor Self-Aligned to a Quantum Dot Array by Double-Gate Patterning Process for a Large-Scale Silicon Quantum Computer

Author

Kuno, Takuma, primary, Utsugi, Takeru, additional, Tsuchiya, Ryuta, additional, Lee, Noriyuki, additional, Shinkai, Gou, additional, Mine, Toshiyuki, additional, Yanagi, Itaru, additional, Mizokuchi, Raisei, additional, Yoneda, Jun, additional, Kodera, Tetsuo, additional, Saito, Shinichi, additional, Hisamoto, Digh, additional, and Mizuno, Hiroyuki, additional

Published
2023
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10. Digital Coherent Receiver Enabling Nyquist Wavelength Demultiplexing Under Frequency Offset and Receiver-Side IQ Impairments

Author

Kuno, Takuma, Mori, Yojiro, and Hasegawa, Hiroshi

Abstract

Nyquist WDM systems generally use non-adaptive digital filters with sharp cut-off characteristics to extract the target wavelength signal. Unfortunately, wavelength division demultiplexing (WDD) using non-adaptive filters suffers degraded signal quality under frequency offset and receiver IQ impairments. When the signal to be detected suffers frequency offset, the target channel spectrum deviates from the passband frequency of the non-adaptive filter. This signal then experiences inter-symbol interference and inter-channel crosstalk in the WDD process. In addition, both inter-channel crosstalk and intra-channel crosstalk are caused by the interaction between frequency offset and receiver IQ impairments. This paper elucidates, for Nyquist WDM systems, this interaction in the WDD process and proposes a digital coherent receiver robust against such interactive impairments. Simulations show the feasibility of the proposed digital coherent receiver. Its effectiveness is validated through experiments on 32 Gbaud dual-polarization 16 quadrature amplitude modulation signals with 33 GHz channel spacing.

Published
2024
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12. Fiber-scanning based ultra-compact near-eye display with a narrow-beam waveguide

Author

Takahiro Matsuda, Yoshiho Seo, Nakamura Toshiteru, Satoshi Ouchi, Shinsuke Onoe, and Kuno Takuma

Subjects
Brightness, Optical fiber, Materials science, business.industry, media_common.quotation_subject, Luminance, Atomic and Molecular Physics, and Optics, law.invention, Small form factor, Optics, Projector, law, Contrast (vision), Fiber, business, Waveguide, media_common
Abstract

For ultra-compact near-eye display, waveguides provide a small form factor because they are thin shape plate, but projectors are too large due to the imaging sources, which results in bulky near-eye displays. Recent advances in fiber-scanning technology can overcome this limitation. Fiber-scasnning projectors produce an image by vibrating an optical fiber, and they can be small because only thin fibers and actuators are required. However, uneven brightness occurs when augmented reality images from the fiber-scanning projector are displayed using a conventional waveguide. In this paper, we propose a novel waveguide that duplicates a narrow beam by multiple reflections of a pre duplicator, which is a flat-plate-shaped optics with mirror and half-mirror surfaces. The proposed waveguide enables uniform luminance distribution with a fiber-scanning projector by providing narrow duplication intervals. We experimentally confirmed that the contrast of luminance unevenness decreased from 0.60 to 0.15 with our waveguide. Our fiber scanning projector size is less than 0.03 cc and can be placed on the temples of eyeglasses, which is impossible with general projectors of about 5 cc. Therefore, the proposed waveguide and fiber scanning projector enable the realization of eyeglasses shape near-eye displays.

Published
2021

15. High luminance and high see‐through head‐mounted displays with beam‐splitter‐array waveguides

Author

Uchiyama Masahito, Nakamura Toshiteru, Ukai Ryuji, Kuno Takuma, and Satoshi Ouchi

Subjects
Materials science, business.industry, Optical head-mounted display, Luminance, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, High luminance, law.invention, Optics, law, Transmittance, Head (vessel), Electrical and Electronic Engineering, business, Waveguide, Beam splitter
Published
2020

20. Laser scan control technology of scanning fiber device for small display system and its applications

Author

Kuno Takuma, Satoshi Ouchi, Shinsuke Onoe, Nakamura Toshiteru, Takahiro Matsuda, and Yoshiho Seo

Subjects
Brightness, Materials science, business.industry, High resolution, Optical head-mounted display, Laser, GeneralLiterature_MISCELLANEOUS, law.invention, Laser projector, Optics, Projector, law, Control system, Fiber, business
Abstract

We are developing projector system with scanning fiber device and its control system. Our novel scanning systems of scanning fiber device provide high resolution, uniform brightness, rectangular display area, which are difficult matters of conventional scanning fiber device. And we have confirmed that scanning fiber device is applicable to some application products such as head mounted display.

Published
2020

30. High luminance and high see‐through head‐mounted displays with beam‐splitter‐array waveguides.

Author

Ukai, Ryuji, Kuno, Takuma, Nakamura, Toshiteru, Uchiyama, Masahito, and Ouchi, Satoshi

Subjects
*HEAD-mounted displays, *RAY tracing, *WAVEGUIDES, *STEREOLITHOGRAPHY, *TECHNICAL specifications
Abstract

We have developed head‐mounted displays with high transmittance and luminance, which could be utilized outside safely without dimming glasses. We first specified required optical performance specifications by considering user's safety and usability. In order to ensure that the user is able to recognize both surrounding environment and the image of the head‐mounted display, we set the target specification that the transmittance is higher than or equal to 85%, and the luminance contrast ratio is larger than or equal to 1.15 with display image of white solid pattern. We then developed the beam‐splitter‐array waveguide to achieve the requirements. It has advantages in high efficiency and high see‐through property. In order to determine configuration of the waveguide, we have performed optical ray trace simulation. We also established versatile waveguide measurement method applicable to different‐type waveguides. By utilizing the waveguide we have developed, we made a prototype of a head‐mounted display (HMD) with high transmittance 94% and high luminance 4.8 × 103 cd/m2 and thus luminance contrast ratio 1.25 under the sun. With these advantages, our HMD is suitable for usage outside including applications of work support systems where dimming effect is not preferred, and the HMD is used under the sun. [ABSTRACT FROM AUTHOR]

Published
2021
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