公开(公告)号：US10324037B2

公开(公告)日：2019-06-18

申请号：US14559744

申请日：2014-12-03

Applicant: Gustav Hudson

Inventor： Gustav Hudson

IPC: H01S5/06 ,  H01S5/34 ,  G01N21/65

Abstract: An extremely sensitive spectroscopy method utilizes a laser modified to an extremely low emission with an integrated control system, interfaced within a typical Raman platform to comprise low energy laser spectroscopy (LELS). LELS acquires and utilizes a quantum entangled state of photons and particles, including omnipresent cosmological dark matter particles (OCDM) and omnipresent cosmological dark energy (OCDE). The OCDM and OCDE matter has an affinity to particles of same OCDM and OCDE matter in target specimens, with same-time data results of high sensitivity. In a semiconductor light emitter, electron flow at a low energy level is provided to a quantum well to produce a quantum tunneling of electrons into an active region of the laser quantum well and creating sublasering. Sublasering allows OCDM and OCDE to become entangled with other particles and energies in the laser's quantum well and create a transmission package comprising quantum entangled fields, waves, wave packages, states and energies. Providing a triggering pulse causes a second tunneling, carrying the transmission package for emission.

公开(公告)号：US20200319030A1

公开(公告)日：2020-10-08

申请号：US16833586

申请日：2020-06-04

Applicant: Gustav Hudson

Inventor： Gustav Hudson

IPC: G01J3/44 ,  H01S5/042 ,  H01S5/343 ,  G01J3/18 ,  G01J3/10

Abstract: An improvement is made to a non-Raman spectroscopy method and apparatus in which a quantum entangled transmission package formed in a quantum well in a laser is directed to a target and in which the apparatus receives emission packages from the target. A control circuit triggers the laser to emit a laser beam. The transmission package is sent via the laser beam by an emission fiber and the emission package is received by a collection fiber. The collection fiber and the transmission fiber may be included in a Raman probe. The collection fiber provides an input to a monochromator comprising a diffraction grating. The diffraction grating is constructed to permit selection of any of a wide range of wavelengths. A spectrometer receives an output from the diffraction grating. The spectrometer output is measured by a photomultiplier to provide an input to the control module. A number of different spectra are selectively generated. Also, the transmission package may be formed with a power level to affect structure of a preselected target.

公开(公告)号：US20190204229A1

公开(公告)日：2019-07-04

申请号：US16286208

申请日：2019-02-26

Applicant: Gustav Hudson

Inventor： Gustav Hudson

IPC: G01N21/65 ,  H01S5/06

CPC classification number: G01N21/65 ,  G01N21/658 ,  G01N2021/653 ,  G01N2021/656 ,  G01N2201/0612 ,  H01S5/0615 ,  H01S5/3416

Abstract: An extremely sensitive spectroscopy method utilizes a laser modified to an extremely low emission with an integrated control system, interfaced within a typical Raman platform to comprise low energy laser spectroscopy (LELS). LELS acquires and utilizes a quantum entangled state of photons and particles, including omnipresent cosmological dark matter particles (OCDM) and omnipresent cosmological dark energy (OCDE). The OCDM and OCDE matter has an affinity to particles of same OCDM and OCDE matter in target specimens, with same-time data results of high sensitivity. In a semiconductor light emitter, electron flow at a low energy level is provided to a quantum well to produce a quantum tunneling of electrons into an active region of the laser quantum well and creating sublasering. Sublasering allows OCDM and OCDE to become entangled with other particles and energies in the laser's quantum well and create a transmission package comprising quantum entangled fields, waves, wave packages, states and energies. Providing a triggering pulse causes a second tunneling, carrying the transmission package for emission.

公开(公告)号：US20160290922A1

公开(公告)日：2016-10-06

申请号：US15181979

申请日：2016-06-14

Applicant: Gustav Hudson

Inventor： Gustav Hudson

IPC: G01N21/63 ,  G01J3/10

CPC classification number: G01N21/63 ,  G01J3/10 ,  G01N2021/656 ,  G01N2201/0612 ,  H01S5/3416

Abstract: In a spectrophotometer and a method of operation, very low levels of energy are produced in a laser diode and directed to excite a sample. Energy is provided to a quantum well to bring the laser diode to a pre-lasing state. Another increment of energy causes the laser diode to emit energy at an energy level lower than a visible laser beam. The energy produced by the laser is collided with the sample. A stimulated emission from the sample includes signals from various entities in the sample. The return emission spectra from the sample comprise signatures used to identify compounds. Use of such very low energies collided with a sample elicit spectra not previously associated with respective analytes. A Raman spectroscopy platform is used for performance of the method.

Abstract translation: 在分光光度计和操作方法中，在激光二极管中产生非常低的能量水平并引导激发样品。 将能量提供给量子阱以使激光二极管处于预激光状态。 能量的另一增加导致激光二极管以低于可见激光束的能级发射能量。 激光产生的能量与样品相撞。 来自样品的受激发射包括来自样品中各种实体的信号。 来自样品的返回发射光谱包括用于鉴定化合物的特征。 使用这种非常低的能量与以前未与相应分析物相关联的样品引发光谱相撞。 拉曼光谱平台用于实现该方法。

公开(公告)号：US20160161411A1

公开(公告)日：2016-06-09

申请号：US14559744

申请日：2014-12-03

Applicant: Gustav Hudson

Inventor： Gustav Hudson

IPC: G01N21/65 ,  H01S5/06 ,  H01S5/042 ,  H01S5/34

CPC classification number: G01N21/65 ,  G01N21/658 ,  G01N2021/653 ,  G01N2021/656 ,  G01N2201/0612 ,  H01S5/0615 ,  H01S5/3416

Abstract: An extremely sensitive spectroscopy method utilizes a laser modified to an extremely low emission with an integrated control system, interfaced within a typical Raman platform to comprise low energy laser spectroscopy (LELS). LELS acquires and utilizes a quantum entangled state of photons and particles, including omnipresent cosmological dark matter particles (OCDM) and omnipresent cosmological dark energy (OCDE). The OCDM and OCDE matter has an affinity to particles of same OCDM and OCDE matter in target specimens, with same-time data results of high sensitivity. In a semiconductor light emitter, electron flow at a low energy level is provided to a quantum well to produce a quantum tunneling of electrons into an active region of the laser quantum well and creating sublasering. Sublasering allows OCDM and OCDE to become entangled with other particles and energies in the laser's quantum well and create a transmission package comprising quantum entangled fields, waves, wave packages, states and energies. Providing a triggering pulse causes a second tunneling, carrying the transmission package for emission.

Abstract translation: 极其敏感的光谱方法利用通过集成控制系统修改为极低发射的激光，在典型的拉曼平台内接口包括低能量激光光谱（LELS）。 LELS获得和利用光子和粒子的量子纠缠状态，包括无所不在的宇宙暗物质粒子（OCDM）和无所不在的宇宙暗能量（OCDE）。 OCDM和OCDE物质与目标标本中相同的OCDM和OCDE物质的颗粒具有亲和力，同时具有高灵敏度的数据结果。 在半导体光发射器中，向量子阱提供低能量级的电子流，以产生电子到激光量子阱的有源区的量子隧穿，并产生升华。 Sublasering允许OCDM和OCDE与激光器量子阱中的其他粒子和能量相互纠缠，并创建包括量子纠缠场，波，波包，状态和能量的传输封装。 提供触发脉冲导致携带传输封装用于发射的第二隧道。