N. Koshikawa scite author profile

Shoji

1996

Surface wave operation mode of the slot antenna microwave plasma source SLAN Polysilicon gate etching in high density plasmas. III. Xray photoelectron spectroscopy investigation of sidewall passivation of silicon trenches using an oxide hard mask Polysilicon gate etching in high density plasmas. II. Xray photoelectron spectroscopy investigation of silicon trenches etched using a chlorinebased chemistry

A higher-order radial mode of helicon waves

Sakawa

Plasma Sources Sci. Technol.

Shoji

1997

The axial profile of the axial component of the wave magnetic field B z has been measured for m = 0 helicon waves. A dip in B z is observed at z 25 cm from the antenna, and is explained as a result of the beat between the fundamental and the second-order radial modes of the m = 0 helicon wave. The measured imaginary part of B z , which consists only of the wave field, is compared with that of the calculated wave field using the theory of the uniform plasma case. It is found that 40% of the amplitude arises from the second-order mode and the axial damping length of the fundamental mode 1/k iz 1 70 cm.

Multi-modal 3D imaging of radionuclides using multiple hybrid Compton cameras

Omata

Masubuchi

et al. 2022

Sci Rep

For radiological diagnosis and radionuclide therapy, X-ray and gamma-ray imaging technologies are essential. Single-photon emission tomography (SPECT) and positron emission tomography (PET) play essential roles in radiological diagnosis, such as the early detection of tumors. Radionuclide therapy is also rapidly developing with the use of these modalities. Nevertheless, a limited number of radioactive tracers are imaged owing to the limitations of the imaging devices. In a previous study, we developed a hybrid Compton camera that conducts simultaneous Compton and pinhole imaging within a single system. In this study, we developed a system that simultaneously realizes three modalities: Compton, pinhole, and PET imaging in 3D space using multiple hybrid Compton cameras. We achieved the simultaneous imaging of Cs-137 (Compton mode targeting 662 keV), Na-22 (PET mode targeting 511 keV), and Am-241 (pinhole mode targeting 60 keV) within the same field of view. In addition, the imaging of Ga-67 and In-111, which are used in various diagnostic scenarios, was conducted. We also verified that the 3D distribution of the At-211 tracer inside a mouse could be imaged using the pinhole mode.

Geophysical Research Letters

Citizen Science Observation of a Gamma‐Ray Glow Associated With the Initiation of a Lightning Flash

Tsurumi

Enoto

Ikkatai

et al. 2023

Activation imaging of drugs with hybrid Compton camera: A proof-of-concept study

Omata

Masubuchi

et al. 2022

The visualization of drugs is essential for cancer treatment. Although several methods for visualizing drugs have been proposed, a versatile method that can be easily applied to various drugs has not yet been established. Therefore, we propose “activation imaging,” in which a drug is irradiated with thermal neutrons and becomes radioactive, enabling visualization using emitted x rays and/or gamma rays. Activation imaging does not require the conjugation of specific tracers with drugs. Therefore, it can be easily applied to a variety of drugs, drug carriers (e.g., metal nanoparticles), and contrast agents. In this study, neutron activation, gamma-ray spectroscopy, and imaging of drug carriers, anticancer drug, and contrast agents were performed. Gold nanoparticles (AuNPs) and platinum nanoparticles were used as drug carriers, cisplatin was used as an anticancer drug, and gadoteridol and iohexol were used as contrast agents. As a neutron source, the RIKEN accelerator-driven compact neutron source II (RANS-II) was utilized. The imaging was performed using a hybrid Compton camera (HCC). The HCC can visualize x rays and gamma rays ranging from a few keV to nearly 1 MeV, which enables the imaging of various x rays and gamma rays emitted from the activated drugs. As a result, the gamma-ray spectra indicated the generation of radioisotopes through neutron irradiation, and AuNPs and iohexol were visualized.