公开(公告)号：US09298161B2

公开(公告)日：2016-03-29

申请号：US13199839

申请日：2011-09-12

Applicant: Jeffrey Max Belicofski

Inventor： Jeffrey Max Belicofski

IPC: G03H1/26 ,  G03H1/04 ,  G03H1/02 ,  G02B6/02

CPC classification number: G03H1/0402 ,  G02B6/02328 ,  G03H1/0248 ,  G03H1/265 ,  G03H2001/0415 ,  G03H2001/0426 ,  G03H2001/0436 ,  G03H2001/2655 ,  G03H2222/20 ,  G03H2222/33 ,  G03H2222/42 ,  G03H2222/44 ,  G03H2222/50 ,  G03H2222/52 ,  G03H2223/16 ,  G03H2227/02

Abstract: An apparatus for the recording and multiplexing of pulsed reflection holograms made possible with the invention of the Hollow Core Photonic Crystal Fiber is disclosed herein. This holographic imaging apparatus uses the Hollow Core Photonic Crystal Fiber as a waveguide in which the highly coherent property of the lightwave required for recording interference fringes can propagate through this waveguide without this coherency of the lightwave diminishing. This apparatus enables the multiplexing of several reflection holograms in a single recording medium using the reference beam with several object beams in sequenced intervals of time and space; several multiplexed recordings are made within a brief interval in time with the object beam emanating from incremental points in space; around a 120 degree tangential arc in space to achieve parallax around this 120 degree tangential arc. This disclosure makes possible apparatus which is transportable and shoulder mountable for pulsed reflection holography.

Abstract translation: 本文公开了一种用于本发明的中空核心光子晶体光纤的脉冲反射全息图的记录和多路复用的装置。 该全息成像装置使用中空核心光子晶体光纤作为波导，其中用于记录干涉条纹所需的光波的高度相干特性可以通过该波导传播，而光波的相干性减弱。 该装置使得能够在单个记录介质中使用具有多个物镜光束的参考光束以时间和空间的时间间隔进行多路复用; 几个多路复用记录在短暂的时间间隔内与物体光束从空间中的增量点发出; 围绕120度切向弧在空间中实现视差，围绕120度切向弧。 本公开使得可传送和可肩式安装用于脉冲反射全息术的装置。

公开(公告)号：US20130063796A1

公开(公告)日：2013-03-14

申请号：US13199839

申请日：2011-09-12

Applicant: Jeffrey Max Belicofski

Inventor： Jeffrey Max Belicofski

IPC: G03H1/26

CPC classification number: G03H1/0402 ,  G02B6/02328 ,  G03H1/0248 ,  G03H1/265 ,  G03H2001/0415 ,  G03H2001/0426 ,  G03H2001/0436 ,  G03H2001/2655 ,  G03H2222/20 ,  G03H2222/33 ,  G03H2222/42 ,  G03H2222/44 ,  G03H2222/50 ,  G03H2222/52 ,  G03H2223/16 ,  G03H2227/02

Abstract: An apparatus for the recording and multiplexing of pulsed reflection holograms made possible with the invention of the Hollow Core Photonic Crystal Fiber is disclosed herein. This holographic imaging apparatus uses the Hollow Core Photonic Crystal Fiber as a waveguide in which the highly coherent property of the lightwave required for recording interference fringes can propagate through this waveguide without this coherency of the lightwave diminishing. This apparatus enables the multiplexing of several reflection holograms in a single recording medium using the reference beam with several object beams in sequenced intervals of time and space; several multiplexed recordings are made within a brief interval in time with the object beam-emanating from incremental points in space; around a 120 degree tangential arc in space to achieve parallax around this 120 degree tangential arc. This disclosure makes possible apparatus which is transportable and shoulder mountable for pulsed reflection holography.

Abstract translation: 本文公开了一种用于本发明的中空核心光子晶体光纤的脉冲反射全息图的记录和多路复用的装置。 该全息成像装置使用中空核心光子晶体光纤作为波导，其中用于记录干涉条纹所需的光波的高度相干性能可以通过该波导传播，而光波的相干性减弱。 该装置使得能够在单个记录介质中使用具有多个物镜光束的参考光束以时间和空间的时间间隔多路复用多个反射全息图; 在短时间内进行多个多路复用记录，其中物体光束从空间中的增量点发出; 围绕120度切向弧在空间中实现视差，围绕120度切向弧。 本公开使得可传送和可肩式安装用于脉冲反射全息术的装置。

公开(公告)号：US20120060431A1

公开(公告)日：2012-03-15

申请号：US13317277

申请日：2011-10-14

Applicant: Jeffrey Max Belicofski

Inventor： Jeffrey Max Belicofski

IPC: E04B7/10 ,  E04B1/38 ,  E04B1/32 ,  E04B1/19

CPC classification number: E04B1/32 ,  E04B1/3211 ,  E04B2001/3223 ,  E04B2001/327 ,  E04B2001/3294

Abstract: A method of construction by which the framework of various structures can be erected in a Geodesic manner is proposed. These structures are Geodesic in that they are comprised of a large number of a few identical parts and such that the pressure on the structure is distributed throughout the structure: In this case, the thicker the Dimensions of the parts the greater the strength of the structure. This method uses hollow hexagonal and hollow pentagonal pyramidal frustums fastened together as the main building blocks of the Geodesic structure. These structures mirror the molecular world of the Carbon-60 molecule, the strongest molecule known for it's size. Thus, this proposed method of construction would provide structural enclosures that are immensely strong; such a structural enclosure given a superior quality rating by this method would be immune from the destructive effects of Tornadoes, Hurricanes, and earthquakes.

Abstract translation: 提出了一种以大地测量方式架设各种结构框架的结构方法。 这些结构是测地线，因为它们由大量相同的部分组成，并且结构上的压力分布在整个结构中：在这种情况下，部件的尺寸越厚结构的强度越大 。 该方法采用中空六角形和中空六角锥形锥体，作为大地测量结构的主要构件。 这些结构反映了分子世界的碳-60分子，其最大的分子是已知的它的大小。 因此，这种提出的施工方法将提供非常强的结构外壳; 这种通过这种方法给予优质品质的结构外壳将免受龙卷风，飓风和地震的破坏性影响。

公开(公告)号：US20100095605A1

公开(公告)日：2010-04-22

申请号：US12215369

申请日：2008-06-25

Applicant: Jeffrey Max Belicofski

Inventor： Jeffrey Max Belicofski

IPC: E04B1/32

CPC classification number: E04B1/3211 ,  E04B1/32 ,  E04B2001/3223 ,  E04B2001/327 ,  E04B2001/3294

Abstract: A method of construction by which the framework of various structures can be erected in a Geodesic manner is proposed. These structures are Geodesic in that they are comprised of a large number of a few identical parts and such that the pressure on the structure is distributed throughout the structure: In this case, the thicker the Dimensions of the parts the greater the strength of the structure. This method uses Hexagonal and Pentagonal cylinders as the main parts of the Geodesic structure, and similar Geodesic structures were proposed and built by the American Architect, the late R. Buckminster Fuller in the early 1960's. and many variations of Geodesics have been proposed and built since then. The concept has a mirror in the Molecular World, Specifically, the Carbon-60 Molecule discovered in 1985; The parent of a new family of molecular structures known as fullerenes named in honor of R. Buckminster Fuller. It is of special interest to note that R. Buckminster Fuller proposed that Domes assembled in a Geodesic manner would be extremely strong: These Domes mirror the molecular World, the Carbon-60 molecule, and it has transpired that the carbon-60 molecule is the strongest molecule known for it's size. Thus, this proposed method of construction would provide structures that are immensely strong; such a structure given a superior quality rating by this method would be immune from the destructive effects of Tornadoes, Hurricanes, and earthquakes.

Abstract translation: 提出了一种以大地测量方式架设各种结构框架的结构方法。 这些结构是测地线，因为它们由大量相同的部分组成，并且结构上的压力分布在整个结构中：在这种情况下，部件的尺寸越厚结构的强度越大 。 这种方法使用六边形和五边形圆柱体作为测地结构的主要部分，并且类似的测地结构由美国建筑师提出并建立，后者是二十世纪六十年代早期的R. Buckminster Fuller。 自那以来，已经提出并构建了大地测量学的许多变体。 这个概念在分子世界中有一个镜子，具体来说，1985年发现的碳-60分子; 被称为富勒烯的新家族分子结构的父母，以荣誉R. Buckminster Fuller命名。 特别值得注意的是，巴克明斯特·富勒提出，以大地测量方式组装的圆顶将非常强大：这些圆顶反映了分子世界Carbon-60分子，并且已经发现碳-60分子是 最强的分子以其大小而闻名。 因此，这种建议的方法将提供非常强的结构; 这种通过这种方法赋予优质品质的结构将免受龙卷风，飓风和地震的破坏性影响。

公开(公告)号：US08539735B2

公开(公告)日：2013-09-24

申请号：US13317277

申请日：2011-10-14

Applicant: Jeffrey Max Belicofski

Inventor： Jeffrey Max Belicofski

IPC: E04B1/32

CPC classification number: E04B1/32 ,  E04B1/3211 ,  E04B2001/3223 ,  E04B2001/327 ,  E04B2001/3294

Abstract: A method of construction by which the framework of various structures can be erected in a Geodesic manner is proposed. These structures are Geodesic in that they are comprised of a large number of a few identical parts and such that the pressure on the structure is distributed throughout the structure: In this case, the thicker the Dimensions of the parts the greater the strength of the structure. This method uses hollow hexagonal and hollow pentagonal pyramidal frustums fastened together as the main building blocks of the Geodesic structure. These structures mirror the molecular world of the Carbon-60 molecule, the strongest molecule known for it's size. Thus, this proposed method of construction would provide structural enclosures that are immensely strong; such a structural enclosure given a superior quality rating by this method would be immune from the destructive effects of Tornadoes, Hurricanes, and earthquakes.

Abstract translation: 提出了一种以大地测量方式架设各种结构框架的结构方法。 这些结构是测地线，因为它们由大量相同的部分组成，并且结构上的压力分布在整个结构中：在这种情况下，部件的尺寸越厚结构的强度越大 。 该方法采用中空六角形和中空六角锥形锥体，作为大地测量结构的主要构件。 这些结构反映了分子世界的碳-60分子，其最大的分子是已知的它的大小。 因此，这种提出的施工方法将提供非常强的结构外壳; 这种通过这种方法给予优质品质的结构外壳将免受龙卷风，飓风和地震的破坏性影响。

公开(公告)号：US20100128368A1

公开(公告)日：2010-05-27

申请号：US12313882

申请日：2008-11-26

Applicant: Jeffrey Max Belicofski

Inventor： Jeffrey Max Belicofski

IPC: G02B7/02 ,  G02B7/18

CPC classification number: G02B7/00

Abstract: A Method of assembling optical mounts for the formation of an optical-electronic circuit is disclosed herein. This Z-Translating Optical-Mechanical alignment system had been devised to solve the problem of building a transportable, shoulder mountable, holographic camera. This system allows for easy adjustment in the Z-direction (in Cartesian co-ordinates) with adjustment in the X & Y directions built into the discrete optical mounts forming the circuit and which are now standard components in the opto-electronics industry. This system allows for components such as Laser Mirrors, Laser crystals, Lenses, Beam-splitting cubes, Waveplates, Diffraction Gratings, Spatial Filters, to be assembled in a compact and flexible manner with near perfect alignment and with Electronically controlled fine adjustment in the Z-direction.

Abstract translation: 本文公开了组装用于形成光电子电路的光学座的方法。 这种Z-平移光学 - 机械对准系统已经被设计成解决了构建可运输的，肩式安装的全息照相机的问题。 该系统允许在Z方向（笛卡尔坐标）上进行调整，并调整在形成电路的分立光学支架中内置的X＆Y方向，现在它们是光电子行业的标准组件。 该系统允许诸如激光镜，激光晶体，透镜，分束立方体，波片，衍射光栅，空间滤光器等组件以紧凑且灵活的方式组装，具有近乎完美的对准，并且在Z中具有电子控制的精细调节 -方向。