DE102022108612A1 - METHOD FOR BURYING THE LIGHT/PHOTONS OF A CREAMED BODY - Google Patents

Abstract

Starting from the rite of cremation, the method of the present invention collects the non-coherent light/photons produced by a body during its cremation to emit it into space as a coherent light of high brilliance for burial, according to the principle of a laser pumped with sunlight send. The process fits into existing cremation rituals and relies on existing technologies, including the use of a laser system based on the principles of a sunlight pumped laser. When using the method described here, however, the laser is not pumped with sunlight, but with the light/photons that arise from a body when it is cremated. This requires only minor modifications to a laser pumped with sunlight. This includes the installation of translucent windows in the walls of the cremation oven, as well as the installation of light-gathering elements such as mirrors and lenses to concentrate the flow of light/photons from a cremated body and direct it into the input optics of the laser to be pumped . Further modifications include choosing an appropriate laser medium for the light/photons emitted from the cremation oven, as well as mounting the laser on an astronomical tracking platform to send the laser beam with precision to specific segments of space.

Description

SUBJECT OF THE INVENTION

The procedure presented deals with the space burial of light/photons produced and released by a human or animal body during its cremation.

The burial takes place by collecting and transmitting the light/photons into a laser, which is based on the principle of a laser pumped with sunlight. It converts the light/photons from the cremation process into a coherent laser beam of high brilliance and sends it into space for burial. The method includes the optional use of the laser beam for optical signaling in space, for the production of Non-Fungible Tokens (NFT), and for space exploration. The procedure creates a new burial procedure, expanding on the well-known rite of cremation.

BACKGROUND OF THE INVENTION

The cremation of the bodies of the deceased and the subsequent burial of the resulting ashes is a long-practiced burial rite. Cremation ashes are placed in urns that are buried either in urn walls or in earth graves. Burial at sea, dispersal in the area or, in individual cases, transport into near-earth space, either to remain there or to re-enter the earth's atmosphere after a short flight in near-earth space (https://en.wikipedia.org /wiki/Space_burial - accessed October 2021).

The remains of the cremation process are smoke gases, mineral ashes, possible body implants, and the light/photons produced during the cremation of the body from the conversion of its thermal energy into electromagnetic energy. While the handling of ashes is a substantial part of cremation burial rituals, the light/photons from a cremated body are not. The task of the process presented here is to expand the burial ritual of cremation by handling the photons emitted by a cremated body and burying them in space.

STATE OF THE ART

Cremation of bodies is a widespread burial rite. An overview of common funeral rites can be found in: “FUNERAL RITES ACROSS DIFFERENT CULTURES”. https://www.egfl.org.uk/sites/default/files/School_effectiveness/Teaching_and_learning/Funeral_Rites_website.pdf (accessed March 2022).

Common technologies in the construction of closed stationary incineration furnaces are described in https://dfweurope.com/cremation-furnaces/ (accessed October 2021).

A mobile incinerator is in US 6,457,424 B1 explained.

US 2005/0051065 A1 deals with a procedure for laser-based cremation of a human body with simultaneous autopsy.

US 6,550,114 describes a process in which human remains are transported into the upper atmosphere or beyond by means of a rocket in order to burn up in the entry friction and heat generated during re-entry into the atmosphere.

The state of the art of sunlight pumped lasers is well known. Systems for signal transmission, energy generation and energy transmission were developed and produced. The feasibility of such lasers for continuous energy generation and signal transmission in space has been published and demonstrated in numerous scientific publications and studies.

• Report Number: MSNW 79-1087/1090-1; Accession Number: 4104; Title:
  • Design Investigation of Solar Powered Lasers for Space Applications. Mathematical Sciences Northwest Inc., PO Box 1887, Bellevue, WA98009 - Report Prepared For National Aeronautics and Space Administration, Washington, DC, Publication Date: May 01, 1979
• „SOLAR PUMPED LASERS TO DIRECTLY CONVERT SUNLIGHT TO LASER RADIATION“ Thomas Eubanks, Pier. Marzocca, Sh. Payziyev, Charles. Radley, - Leeward Space Foundation Corresponding Author, charles@ava.st Notice of Interest in response to NASA RFI: GAME CHANGING DEVELOPMENT PROGRAM, INDUSTRY-DEVELOPED POWER BEAMING - (http://asteroidinitiatives.com/Papers/files/Solar-pumped-laser-white_paper.pdf (abgerufen Jan. 2022)

Among them are:

• Report Number: MSNW 79-1087/1090-1; Accession Number: 4104; Title:
  • Design Investigation of Solar Powered Lasers for Space Applications. Mathematical Sciences Northwest Inc., PO Box 1887, Bellevue, WA98009 - Report Prepared For National Aeronautics and Space Administration, Washington, DC, Publication Date: May 01, 1979
• “SOLAR PUMPED LASERS TO DIRECTLY CONVERT SUNLIGHT TO LASER RADIATION” Thomas Eubanks, Pier. Marzocca, Sh. Payziyev, Charles. Radley, - Leeward Space Foundation Corresponding Author, charles@ava.st Notice of Interest in response to NASA RFI: GAME CHANGING DEVELOPMENT PROGRAM, INDUSTRY-DEVELOPED POWER BEAMING - (http://asteroidinitiatives.com/Papers/files/Solar-pumped -laser-white_paper.pdf (accessed Jan. 2022)

• https://blogs.nasa.gov/letters/2012/04/06/post_1333722638842/ (abgerufen Okt. 2021) beschreibt das erfolgreiche Experiment von Amateurastronomen, bei dem die überfliegende ISS Weltraumstation vom Boden aus mit einem blauen 1 Watt Laser angeleuchtet wurde.

The publication:

• https://blogs.nasa.gov/letters/2012/04/06/post_1333722638842/ (accessed Oct. 2021) describes the successful experiment by amateur astronomers in which the overflying ISS space station was illuminated from the ground with a blue 1 watt laser .

The use of lasers for communications in space is described in https://blogs.nasa.gov/letters/2012/04/06/post_1333722638842/ (accessed Oct. 2021).
Laser applications using LIDAR systems for measuring the distance between the Earth and the Moon are described: https://en.wikipedia.org/wiki/Lunar_Laser_Ranging_experiment (accessed Oct. 2021.
The use of backscattered laser light for atmospheric research is described: https://www.scientificbulletin.upb.ro/rev_docs_arhiva/full2936.pdf (accessed Oct. 2021).
Sunlight pumped lasers of various designs describe: US20140217336 , US4594720 and US2018145475 .

The publications: T. Ohkubo “Solar-pumped 80W laser irradiated by a Fresnel lens” Optics Letters, 34 (2) (2009), pp. 175-177,
as well as
D. Liang, J. Almeida “Highly efficient solar-pumped Nd: YAG laser” Optical Express, 19 (27) (2011), pp. 26399-26405
describe lasers pumped with sunlight, which are considered advantageous in connection with the invention presented here.

DETAILED DESCRIPTION OF THE INVENTION

In the context of the method presented, the term sunlight pumped laser refers to a laser that is pumped with light/photons instead of sunlight, which is generated during the cremation of a body by converting its thermal energy into electromagnetic energy.

A closed cremation oven must allow light/photons to escape and be introduced into a laser to be pumped. This is achieved through the well-known installation of heat-resistant and transparent windows in the side walls of the oven. Alternatively, the use of an open burn site is possible. Optical mirrors and lenses are then used to direct the light/photons emerging through the transparent windows to the input optics of the laser to be pumped.

In this invention, the laser to be pumped is not pumped with sunlight, but instead with light/photons emitted by a body during its cremation. The laser converts the incoherent light from the cremated body into coherent laser light of high brilliance. Mounted on an astronomical tracking platform, the laser then sends the light/photons to a selected star or segment of space for burial. Optionally, the light can be used to signal into space or to explore space.

Depending on the absorption spectrum of a chosen laser medium, a sunlight pumped laser can only use a limited spectrum of sunlight as the excitation wavelength. A common sunlight pumped laser with a built-in Nd:YAG crystal as the laser medium has a preferred absorption spectrum between 790 nm and 820 nm with an absorption maximum at 808 nm. Its emission spectrum is between 1840 nm and 1080 nm. This light is in the near-infrared range and the laser beam is therefore invisible to the human eye. Meat cremated in a butane gas flame emits light/photons in the range between 550 nm and 670 nm with an emission maximum at 610 nm. A laser medium with an absorption maximum near this wavelength is therefore desirable.

A CrLiSAF laser crystal as a laser medium is therefore well suited for the application described ( 2 ). Its absorption spectrum covers well the emission spectrum of burning flesh. Its emission spectrum is between 750 nm and 1050 nm with an emission maximum at 850 nm. A CrLiSAF crystal as a laser medium in a laser pumped with light from a cremation oven therefore meets the requirements of this invention. However, this laser beam is still not visible to the human eye due to its emission spectrum. It is expected that this circumstance could result in less emotional gain for a person considering the process outlined here for their own cremation. The same can be assumed for mourners present. For this reason, two modifications are contemplated within the scope of the invention.

The emission spectrum of a sunlight pumped laser can be changed using the art of frequency doubling, tripling or quadrupling. Doubling the frequency causes the original emission wavelength of a laser to shift to half the wavelength. In the case of a CrLiSAZ laser crystal selected as a laser medium with an emission With a wavelength of 850 nm, doubling the frequency results in an emission wavelength of 425 nm. This is the wavelength of violet light. It is easily visible to the human eye against a dark background or at night.

An alternative solution is to mount a conventional laser that emits visible light and is mounted as a targeting laser on the laser pumped by light/photons from the cremated body. The target laser marks the spatial position of an invisible infrared laser beam for mourners.

In an expanded configuration, several copies of the laser described are installed in a cremation oven. By using the light/photons of a cremated body as a pump source, they can in turn serve as pump sources for a final laser with a desired higher output power and/or a changed emission frequency.

In one application, the described method can be used to send the light/photons of a cremated body as a continuous or pulsed brilliant laser beam into a random or selected segment of space for burial.

In another application, the same light/photons from a cremated body are used as a carrier for sending any information, including sending a cryptographically unique, indivisible, irreplaceable and verifiable Non-Fungible Token (NFT) into space.

The signal from a continuous or pulsed laser beam is digitized for this purpose. For this purpose, known laser modulation methods are used, including mechanical methods.

The release of a human genetic code into space can be viewed by users of the process as a possibility for the future re-creation of their identity and physical existence. In a broader context, it also represents an opportunity for the basic survival of the human species in a future space and future time.

DESCRIPTION OF DRAWINGS

• 1 Shows a cremation oven with gas-tight and heat-resistant transparent windows (1) used for the transmission of light/photons from the oven into light-collecting devices (2), such as Fresnel lenses and/or parabolic mirrors. From there the light/photons are directed into the laser (4) and serve as a pump source. The laser is mounted on a motorized and computer-controlled astronomical mount to direct the laser beam to a specific area or target in space (5) and to compensate for Earth's rotation during cremation.
• 2 Shows the emission spectrum of a piece of meat burning in a butane gas flame, along with absorption and emission spectra of a laser crystal chosen as the laser amplification medium for a laser pumped not with sunlight, but with the light/photons from a cremated one Body.

QUOTES INCLUDED IN THE DESCRIPTION

This list of documents listed by the applicant was generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• US 6457424 B1 [0007]
• US 2005/0051065 A1 [0008]
• US 6550114 [0009]
• US 20140217336 [0013]
• US 4594720 [0013]
• US 2018145475 [0013]

Claims (4)

Method for space burial of light/photons arising from a body during its cremation, comprising the steps: a. Installation of transparent windows in a cremation oven or the use of an open cremation facility, b. The use of light-gathering elements such as Fresnel lenses. Parabolic mirrors and other optical elements to collect the light/photons emerging from a body during cremation and direct it into a laser, where it serves as the laser's pump source. c. The use of the laser to beam the light/photons into space as a coherent beam of high brilliance for burial. Procedure according to Claim 1 characterized in that an astronomical mount of the laser is used to target targets in space where the light/photons are to be buried. Procedure according to Claim 1 and 2 characterized in that the light beam is used for signaling into space. Procedure according to Claim 1 and 3 characterized in that the light beam is used for the transmission of a cryptographically unique, indivisible, irreplaceable and verifiable Non-Fungible Token (NFT) in order to provide the light beam with a non-exchangeable signature.

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