公开(公告)号：US20250011226A1

公开(公告)日：2025-01-09

申请号：US18763257

申请日：2024-07-03

Applicant: Incom, Inc.

Inventor： Anil U. Mane ,  Jeffrey W. Elam ,  Michael J. Minot ,  Stephen M. Clarke ,  Cole J. Hamel ,  Derrick O. Mensah ,  Mark A. Popecki ,  Melvin Aviles ,  Michael E. Stochaj ,  Stefan Cwik

IPC: C03C17/34 ,  H01L31/0392 ,  H01L31/18

Abstract: A functionalized glass device, such as a microchannel plate, includes a glass substrate having a chemistry including an ionic species that may diffuse toward a surface, and a functional layer supported by the glass substrate and having a functional characteristic that may be undesirably altered by introduction of the ionic species during operation of the device. An ion barrier layer is disposed between the surface of the glass substrate and the functional layer, the ion barrier layer being substantially of a metal oxide material effective to limit the diffusion of the ionic species into the functional layer.

公开(公告)号：US20220267200A1

公开(公告)日：2022-08-25

申请号：US17677082

申请日：2022-02-22

Applicant: Incom, Inc.

Inventor： Michael J. Minot ,  Alexey Lyashenko ,  Michael A. Detarando ,  Till Cremer ,  Cole J. Hamel ,  Mark A. Popecki

IPC: C03C17/36

Abstract: A method of making a functionalized device for amplification or multiplication of electrons includes making a glass channel array by a laser-induced deep etching process including (1) applying laser pulses to a glass substrate to form an array of modified areas, the glass substrate having a thickness less than 5 mm, the modified areas extending between two surfaces of the glass substrate, and (2) subsequently performing an etching process to selectively remove the modified areas and thereby form an array of through channels. Subsequently, one or more materials are deposited on the glass channel array to form the functionalized device.

公开(公告)号：US20150124929A1

公开(公告)日：2015-05-07

申请号：US14071236

申请日：2013-11-04

Applicant: Incom, Inc.

Inventor： Michael J. Minot ,  Joseph M. Renaud ,  Daniel C. Bennis ,  Michael A. Detarando

IPC: G21K1/10 ,  G01N23/04

CPC classification number: G01N23/04 ,  G21K1/025

Abstract: An X-ray anti-scatter grid having thinner X-ray opaque layers, smaller X-ray opaque diameters, greater aspect ratio, lower weight and improved image resolution is disclosed. A method of forming the X-ray anti-scatter grid is disclosed that includes a set of hollow X-ray transparent glass capillary tubes that are fused together, with an X-ray opaque layer thick enough to block X-rays at a specified energy inside the capillary tubes. The capillary tubes provide the high aspect ratio and light weight, while the X-ray opaque layer is provided by a deposition process that has features similar to atomic layer deposition (ALD). The high aspect ratio and thin layers improves resolution and decreases image artifacts, and large area X-ray anti-scatter grids are provided by aligning the axis of the an X-ray opaque layers to the X-ray source.

Abstract translation: 公开了具有较薄的X射线不透明层，较小的X射线不透明直径，更大的纵横比，更低的重量和更好的图像分辨率的X射线防散射网格。 公开了一种形成X射线防散射栅格的方法，其包括一组融合在一起的中空X射线透明玻璃毛细管，其X射线不透明层足够厚以在特定能量下阻挡X射线 在毛细管内。 毛细管提供高纵横比和轻重量，而X射线不透明层由具有类似于原子层沉积（ALD）特征的沉积工艺提供。 高纵横比和薄层提高分辨率并减少图像伪像，并且通过将X射线不透明层的轴与X射线源对准来提供大面积X射线防散射网格。

公开(公告)号：US09213005B2

公开(公告)日：2015-12-15

申请号：US14071236

申请日：2013-11-04

Applicant: Incom, Inc.

Inventor： Michael J. Minot ,  Joseph M. Renaud ,  Daniel C. Bennis ,  Michael A. Detarando

IPC: G21K1/00 ,  G01N23/04 ,  G21K1/02

CPC classification number: G01N23/04 ,  G21K1/025

Abstract: An X-ray anti-scatter grid having thinner X-ray opaque layers, smaller X-ray opaque diameters, greater aspect ratio, lower weight and improved image resolution is disclosed. A method of forming the X-ray anti-scatter grid is disclosed that includes a set of hollow X-ray transparent glass capillary tubes that are fused together, with an X-ray opaque layer thick enough to block X-rays at a specified energy inside the capillary tubes. The capillary tubes provide the high aspect ratio and light weight, while the X-ray opaque layer is provided by a deposition process that has features similar to atomic layer deposition (ALD). The high aspect ratio and thin layers improves resolution and decreases image artifacts, and large area X-ray anti-scatter grids are provided by aligning the axis of the an X-ray opaque layers to the X-ray source.

Abstract translation: 公开了具有较薄的X射线不透明层，较小的X射线不透明直径，更大的纵横比，更低的重量和更好的图像分辨率的X射线防散射网格。 公开了一种形成X射线防散射栅格的方法，其包括一组融合在一起的中空X射线透明玻璃毛细管，其X射线不透明层足够厚以在特定能量下阻挡X射线 在毛细管内。 毛细管提供高纵横比和轻重量，而X射线不透明层由具有类似于原子层沉积（ALD）特征的沉积工艺提供。 高纵横比和薄层提高分辨率并减少图像伪像，并且通过将X射线不透明层的轴与X射线源对准来提供大面积X射线防散射网格。