This neutron radiation shielding material for blocking neutron radiation includes a resin-containing layer and a borohydride-containing layer, wherein one of the resin-containing layer and the borohydride-containing layer is disposed on a side exposed to the radiation source of neutron radiation.

• 출원번호 : JP2024/017540
• 출원인 : DEXERIALS CORPORATION;UNIVERSITY OF TSUKUBA;
• 특허번호 :
• IPC : H01L-023/02(2006.01);G21F-001/10(2006.01);G21F-003/00(2006.01);H05K-009/00(2006.01);

A neutron radiation shielding material for blocking neutron radiation, wherein the attenuation rate of neutron radiation of 0.5 eV is 1e-2 or less when the thickness of the neutron radiation shielding material is 1 cm.

• 출원번호 : JP2024/017542
• 출원인 : DEXERIALS CORPORATION;UNIVERSITY OF TSUKUBA;
• 특허번호 :
• IPC : H01L-023/02(2006.01);G21F-001/10(2006.01);G21F-003/00(2006.01);H05K-009/00(2006.01);

Various methods and systems are provided for radiation therapy management. In one example, a computing device comprises a display screen, the computing device being configured to display on the display screen a course directive graphical user interface (GUI). The course directive GUI displays, for a selected patient, a limited list of patient information obtained from one or more of an electronic medical record (EMR) database and an oncology information system (OIS), and further displays a limited list of radiation therapy forms each being selectable to launch a display panel and enable at least the selected form to be seen within the display panel.

• 출원번호 : US2024/028969
• 출원인 : GE PRECISION HEALTHCARE LLC
• 특허번호 :
• IPC : G06T-007/00(2017.01);G06T-011/00(2006.01);G16H-050/20(2018.01);

Disclosed herein are systems that can dynamically and independently control the amount (or intensity), the spectrum (or wavelength), and/or the angle (or dispersion) of a beam of transmitted light and/or thermal radiation, conduction, and/or convection using fluids. In some embodiments, the present disclosure describes systems capable of universally controlling light and/or thermal radiation. In some embodiments, disclosed herein are systems that can orthogonally manipulate the intensity, spectrum, direction and/or distribution of a beam of light using fluids. In some embodiments, disclosed herein are systems that can tune optical transmission and thermal conduction orthogonally using fluids. In some embodiments, disclosed herein is a system that can simultaneously control visible and thermal radiation or visible, thermal and near-IR radiation using fluids. In some embodiments, disclosed herein are systems that can dynamically control radiative, conductive, and convective heat exchange using fluids.

• 출원번호 : US2024/028944
• 출원인 : AIZENBERG, Joanna;KAY, Raphael, M.;SCHROEDER, Thomas;
• 특허번호 :
• IPC : E06B-003/67(2006.01);F21S-011/00(2006.01);G02F-001/165(2019.01);E06B-009/24(2006.01);

Disclosed in the present application is an antenna system. The antenna system comprises a first radiation source, a second radiation source, a reflection apparatus and a first transmission apparatus. The direction of an emission port of the first radiation source and the direction of an emission port of the second radiation source are arranged opposite to each other along the same axis, and a reflective surface of the reflection apparatus and the first transmission apparatus are arranged opposite each other. The first radiation source is used for emitting a first signal to the reflective surface of the reflection apparatus; the reflection apparatus is used for reflecting the first signal to an annular transmission region of the first transmission apparatus by means of the reflective surface; the first transmission apparatus is used for radiating the first signal, which is reflected by the reflective surface, out of the antenna system by means of the annular transmission region; and the second radiation source is used for emitting a second signal, which second signal is radiated out of the antenna system by means of a region formed by the inner diameter of the annular transmission region. Signals from different emission ports are radiated in the same aperture, and radiation paths are independent of each other, such that the radiation efficiency of the antenna system is improved.

• 출원번호 : CN2024/092140
• 출원인 : HUAWEI TECHNOLOGIES CO., LTD.
• 특허번호 :
• IPC : H01Q-019/06(2006.01);H01Q-019/10(2006.01);H01Q-005/22(2015.01);H01Q-015/23(2006.01);

This neutron radiation shielding material for blocking neutron radiation contains a boride, and the average particle size of said boride is 500 μm or less.

• 출원번호 : JP2024/017539
• 출원인 : DEXERIALS CORPORATION;UNIVERSITY OF TSUKUBA;
• 특허번호 :
• IPC : H01L-023/02(2006.01);G21F-001/10(2006.01);G21F-003/00(2006.01);H05K-009/00(2006.01);

An organotin photoresist composition for actinic radiation and a method of stabilization are described. The organotin photoresist composition comprises an organotin compound represented by chemical formulas [RSnOO]Sn, [RSnOO]SnR, [RSnOO]SnR, [RSnOO]SnR, [RSnO]Sn, [RSnO]SnR, [RSnO]SnR, [RSnO]SnR, or RSn(µ-O)Sn(µ-O)SnR, a solvent and an additive, wherein R, R are each independently a substituted or unsubstituted alkyl, alkenyl, alkynyl, cycloalkyl, or cycloalkenyl group with 1 to 20 carbon atoms, or a substituted or unsubstituted aryl group with 6-20 carbon atoms, or an amine, cyclic amine, cyano, ether, cyclic ether, ester, cyclic ester, halide, nitro, silyl, thiol, or carbonyl group. A method of stabilization of organotin photoresist composition comprises adding an organic additive.

• 출원번호 : US2024/028746
• 출원인 : LU, Feng
• 특허번호 :
• IPC : C07F-007/22(2006.01);G03F-007/004(2006.01);G03F-007/20(2006.01);G03F-007/30(2006.01);G03F-007/36(2006.01);

The present application relates to the field of mobile communications, and discloses a radiator and a low-electromagnetic scattering antenna. The radiator comprises: a radiator main body; a parallel resonant circuit, the parallel resonant circuit being located on the radiator main body, and used for suppressing, by means of resonance, a high-frequency induction current generated by the radiator main body so as to increase a high-frequency transparent bandwidth of the radiator main body; and a series resonant circuit, the series resonant circuit being located on the radiator main body, being connected to the parallel resonant circuit in series, and used for conducting, by means of resonance, a low-frequency radiation current generated by the radiator main body so as to increase a low-frequency impedance bandwidth of the radiator main body.

• 출원번호 : CN2024/092228
• 출원인 : ZTE CORPORATION
• 특허번호 :
• IPC : H01Q-001/52(2006.01);H01Q-001/36(2006.01);

The present disclosure provides systems and methods for radio-luminescent imaging dosimetry of variable dose rate radiation beams at high spatial resolution. Exemplary embodiments include time-gating one or more camera shutters such that one image frame from a plastic scintillator detector (PSD) is captured per camera shutter for each radiation beam pulse produced from a pulsed beam accelerator directed toward the PSD.

• 출원번호 : 18661385
• 출원인 : Washington University
• 특허번호 :
• IPC : G01T-001/02(2006.01);G01T-001/20(2006.01);H04N-023/30(2006.01);

Various methods and systems are provided for adaptably routing radiation therapy data based on a model of a radiation oncology system. In one example, a method comprises defining a model of a radiation oncology system; storing the model in a non-transitory memory of a computing device; sending a query from a source system element to a destination system element to determine a processing capability and an available storage space of the destination system element; selecting a transfer path from the source system element to the destination system element based on the model; transforming data into a format that is compatible with the destination system element; transferring transformed data to the destination system element according to the transfer path; updating the model of the radiation oncology system to reflect a real-time state of transfer; and storing an updated model in the non-transitory memory.

• 출원번호 : 18661435
• 출원인 : Gupta, Tripti
• 특허번호 :
• IPC : G16H-040/20(2006.01);G16H-020/40(2006.01);G16H-030/20(2006.01);