H. Nishizawa scite author profile

H. Nishizawa

4Publications

74Citation Statements Received

58Citation Statements Given

How they've been cited

137

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Affiliations

Hamamatsu Photonics (Japan), Sumitomo Electric Industries (Japan)

Publications

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Lifetime-extended MCP-PMT

Jinno

Mori

Ohshima

et al. 2011

Nuclear Instruments and Methods in Physics Research Section A:

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In order to develop a long-lifetime MCP-PMT under high rates of circumstance, we investigated the degradation of the quantum efficiency (QE) of PMT's with a multialkali photocathode. We found that not only positive ions, but also neutral residual gases would damage the photocathode resulting in an enhancement of the work function; their countermeasures were established in newly manufactured square-shaped MCP-PMT's with 4 or 4×4 multi-anodes. The performances of the PMT's were measured: QE was stable up to an integrated amount of anode output charge of 2 − 3 C/cm 2 , while keeping other basic performances steady, such as the time resolution for single photons (σ TTS ) of ≃ 40 ps, a photoelectron collection efficiency (CE) of 60%, a multiplication gain (G) of a few ×10 6 , and dark counts of 20 − 300 Hz. The causes of QE degradation are discussed.

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Cross-talk suppressed multi-anode MCP-PMT

Inami

Mori

Matsumura

et al. 2008

Nuclear Instruments and Methods in Physics Research Section A:

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We have developed a 4-channel multi-anode MCP-PMT, SL10, which exhibits a performance of sigma_TTS ~ 30 ps for single photons with G ~ 10^6 and QE=20% under a magnetic field of B <= 1.5 T. The cross-talk among anodes has been extensively studied. We have taken two measures to suppress it: one is to configure the SL10 to an effectively independent 4 small pieces of MCP-PMT's by segmenting an electrode of the second MCP-layer; the other is to use a constant fractional discriminator. Remarkable improvement has been achieved.Comment: 14 pages, 14 figure

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Reliability of InGaAs/InP long-wavelength p-i-n photodiodes passivated with polyimide thin film

Kuhara

Terauchi

Nishizawa

1986

J. Lightwave Technol.

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Lead-free MCP to improve coincidence time resolution and reduce MCP direct interactions

et al. 2021

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Achieving direct imaging of the annihilation position of a positron on an event-by-event basis using an ultrafast detector would have a great impact on the field of nuclear medicine. Cherenkov emission is the most attractive physical phenomenon for realizing such an ultrafast timing performance. Moreover, a microchannel-plate photomultiplier tube (MCP-PMT) is one of the most promising photodetectors for fully exploiting the fast timing properties of Cherenkov emission owing to its excellent single photon time resolution of 25 ps full width at half maximum (FWHM). However, as the MCP structure generally contains a lead compound, the gamma rays frequently and directly interact with the MCP, resulting in the degradation of its timing performance and generation of undesirable side peaks in its coincidence timing histogram. To overcome this problem, we have developed a new MCP-PMT based on an MCP consisting of borosilicate glass, thus drastically reducing the probability of the photoelectric effect occurring in the MCP. To evaluate its insensitivity to gamma rays and its timing performance, a coincidence experiment was performed and showed that the probability of direct interactions was reduced by a factor of 3.4. Moreover, a coincidence time resolution of 35.4 ± 0.4 ps FWHM, which is equivalent to a position resolution of 5.31 mm, was obtained without any pulse height/area cut, improving to 28.7 ± 3.0 ps when selecting on the highest amplitude events by careful optimization of the voltage divider circuit of the new MCP-PMT. The timing performance of this new MCP-PMT presents an important step toward making direct imaging possible.

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H. Nishizawa

Lifetime-extended MCP-PMT

Cross-talk suppressed multi-anode MCP-PMT

Reliability of InGaAs/InP long-wavelength p-i-n photodiodes passivated with polyimide thin film

Lead-free MCP to improve coincidence time resolution and reduce MCP direct interactions

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