Masaru Ikedo scite author profile

Masaru Ikedo

5Publications

10Citation Statements Received

1Citation Statement Given

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Panasonic (Japan)

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Beryllium Oxide Doped With Lithium Or Sodium for Thermoluminescence Dosimetry

Yamashita¹,

Yasuno²,

Ikedo³

1974

Health Physics

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Lithium or sodium doped beryllium oxide, BeO(Li: 0.5 mol%) and Be0 (Na: 0.5 molx), were found to be efficient and reliable thermoluminescent phosphors. Glow curves of both BeO(Li) and BeO(Na) have simple peaks at 18OoC. The thermoluminescent spectrum shows a broad band in the ultra-violet region peaking at 330 mp with shoulders near 300 and 390 mp.Besides featuring the characteristic that this material has a photoelectric absorption equivalent to that of biological tissue, the main characteristics of the phosphors, from the point of view of dosimetry include:(1) Exposure response of BeO(Li) is linear from 1 mR to 500 R, and that of BeO(Na) is linear from 2 mR to 100 R.(2) Fading of BeO(Li) is less than 20 % within the first hour and 8 % within the following 30 days, and that of BeO(Na) is less than 10 % within the first hour and 5 % within the following 30 days. Light fading of pray exposed BeO(Li) and BeO(Na) is less than 10% for a light exposure of 300 lux for 10 min.(3) After repeated use, easy annealing (heating at 450 -5OO0C for 1 -10 min) removes the residual dose.(4) The thermoluminescent efficiency remains unchanged after more than 100 cycles of repeated exposure-readout operations.(5) A small amount of tribo-thermoluminescence is emittable; about 15 mR dose equivalent for dropping 10 times from a height of 1 m to concrete floor.

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Preparation and characteristics of the TlBr-TlI fiber for a high power CO2 laser beam

Ikedo

Watari

Tateishi

et al. 1986

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The TIBr-TIl (thallium bromoiodide) crystal and its fiber preparation method were studied in order to develop a high power COzlaser beam fiber. As a result of this study, the most preferable composition for the fiber was determined to be 42 wt. % TIBr. The fiber (0.5 mm in diameter and 1.5 m in length) at that composition had the following excellent characteristics:(1) a high output power of 138 W (70 kW /cm 2 ), (2) a high total transmissivity of more than 93%/1.5 m, and (3) a bending radius of ultimate 3.5 cm.

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An optical cable for a CO₂laser scalpel

Ishiwatari

Ikedo²,

Tateishi³

1986

J. Lightwave Technol.

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Composite TLD Based on CaSO4

Iga¹,

Yamashita²,

Takenaga³

et al. 1977

Health Physics

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Composite thermoluminescence dosimeters with elements attached to a small plate have been developed for use in mixed fields of y-rays, X-rays, /?-rays, and thermal neutrons.For photon dosimetry, CaS0,:Tm contained in a glass capsule or formed into a thin sheet with a resin is used. The glass capsule element covered with a tin shield is used to measure the photon dose over 70 keV and the sheet element covered with a carbon shield, that below 70 keV. A similar sheet element without a carbon shield is used for P-ray dosimetry. For thermal neutron dosimetry, a glass capsule element with a mixture of CaS0,:Tm powder and a 6Li compound is used. All of these elements are attached to an aluminum plate, 25 x 24 x 2.5 mm, on which small coded holes corresponding to individual personnel can be punched.The dose ranges of the elements are: 0.3mR-200R for photons over 70keV, 1 mR-200R for photons from 10keV to 70keV, 10mrem-2000rem for /?-rays, and 0.1 mrem-5 rem for thermal neutrons. Measurements of y-rays at 10 mR with a superposed dose of as much as 100 mrem from other kinds of radiation can be made with a standard deviation of less than 7%.

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Infrared Optical Fiber for Energy Transmission

Ikedo¹,

Ishiwatari²,

Watari³

et al. 1983

The Review of Laser Engineering

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Masaru Ikedo

Beryllium Oxide Doped With Lithium Or Sodium for Thermoluminescence Dosimetry

Preparation and characteristics of the TlBr-TlI fiber for a high power CO2 laser beam

An optical cable for a CO₂laser scalpel

Composite TLD Based on CaSO4

Infrared Optical Fiber for Energy Transmission

Contact Info

Product

Resources

About

Masaru Ikedo

Beryllium Oxide Doped With Lithium Or Sodium for Thermoluminescence Dosimetry

Preparation and characteristics of the TlBr-TlI fiber for a high power CO2 laser beam

An optical cable for a CO2laser scalpel

Composite TLD Based on CaSO4

Infrared Optical Fiber for Energy Transmission

Contact Info

Product

Resources

About

An optical cable for a CO₂laser scalpel