NL2018126B1 - Device and method for producing photons, as well as a method assembly for producing electrical power or heat - Google Patents

Abstract

Method and device for producing photons. In addition, a gas is provided which is characterized by spin =. The gas is in a light-transmitting house. A plasma is created in the gas by forming an electric field in the light-transmitting housing. Furthermore, a magnetic field is applied in the light-transmitting housing. Photons are produced by combining these measures. In a further elaboration, the energy present in the photons can be used for generating electric current or for heating a medium, such as for example a liquid or a gas.

Description

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The Netherlands

(21) Application number: 2018126 © Application submitted: 04/01/2017 © 2018126 © BI PATENT © Int. CL:

H01J 61/10 (2017.01) H01J 61/12 (2017.01)

0 Application registered: © Patent holder (s): 25/07/2018 Jelle Ebel van der Schoot in Nijmegen. © Request published: - © Inventor (s): Jelle Ebel van der Schoot in Nijmegen. © Patent granted: 25/07/2018 © Authorized representative: © Patent issued: ir. C.M. Jansen et al. In The Hague. 30/07/2018

© Device and method for producing photons, as well as a method assembly for producing electrical power or heat

Method and device for producing photons. Here, a gas is provided which is characterized by spin = _^1/2. The gas is in a light-transmitting house. A plasma is created in the gas by forming an electric field in the light-transmitting housing. Furthermore, a magnetic field is applied in the light-transmitting housing. Photons are produced by combining these measures. In a further elaboration, the energy present in the photons can be used for generating electric current or for heating a medium, such as for example a liquid or a gas.

NL Bl 2018126

This patent has been granted regardless of the attached result of the research into the state of the art and written opinion. The patent corresponds to the documents originally submitted.

P114250NL00

Title: Device and method for producing photons, as well as a method assembly for producing electrical power or heat

PREFACE

Moses was used to herding the flock of his father-in-law Jetro, the priest of Midjan. Once, when he had led the herd to the other side of the desert, he came to the mountain of God, Horeb. There the Angel of the Lord appeared to him like a flame of fire in the middle of a bramble bush. He watched, and behold, the bramble was on fire, on fire, but was not consumed. And Moses thought, Let me now look at that wonderful phenomenon, why the bramble bush does not burn ¹ .

FIELD

The invention relates to a method and a device for generating photons, as well as a method and an assembly for producing electrical power and / or heat.

THEORETICAL BACKGROUND

Zero point division

On November 27, 2016, Gerhard Jan Smit and Jelle Ebel van der Schoot published a theory [0] on the internet (www.db-universe.org) entitled: "About black matter and the nature of elementary particles". The core of the theory is that the most elementary particle that exists is zero point particle (dimensional basic, 1-db). This particle has the only property: an infinite curvature in the core. The particle itself has no size (no length, no width and no height). The particle is everywhere in the universe. The particle is always moving in space / time. The ¹ Exodus 3: 1-3 particles, when clumped together, or rather jointly interact, form phenomena that exceed the observation limit. If two 1-db particles get into the direct sphere of influence of each other's curvature, there is a strong interaction between the two. The resulting 2-db particle is a photon.

Fire phenomena

The formation of photons can be observed, for example, in the burning of materials containing carbon-13 (C 13) or hydrogen (Hi). An example of this is the burning of wood (C _x H _y ). Carbon is hereby converted with oxygen into carbon dioxide, hydrogen is hereby converted with oxygen into water. The combined binding energy (enthalpy) for carbon dioxide and water is lower than the binding energy of the starting product (wood: C _x H _y ). The excess of binding energy is released as heat (AH = HCxHy-HCO2-HH2O) [1]. The mass of the resulting products can be calculated as follows: 1 mole of C _x H _y gives with a quantity of (x +; y) mole of O2 a yield of x moles of CO2 and + | y moles of H2O [2]. x "and" y "are random numbers. The two known equations [1] and [2] give no explanation for the origin of the photons. In view of the aforementioned theory [0], the explanation for the formation of the photons in the flame (plasma) lies in the interaction of 1-db particles that come into interaction with each other thus producing photons (z moles of 1-db give particles, z moles of 2-db particles (phyphotons) The parameter “z” is an arbitrary number.

The relevant equations when burning C _x H _y (example) are:

• With regard to enthalpy:

AH = Hc _{xHy -HcO 2} -HH 2 O [1] • With regard to mass:

mole C _x H _y with (x + | y) mole O2 gives x mole CO2 and mole H2O [2] • With regard to photons:

z mole 1-db particles give | z mole 2-db particles photons) [3]

The parameters "x" y "and" z "are random numbers.

Plasma

The process described (formation of photons) takes place in plasma (state of aggregation). This is a state in which particles of a gaseous substance are ionized to a greater or lesser extent. With plasma, some atoms have lost one or more electrons as a result of an increase in temperature or other added energy forms. The released electrons move freely through the space / time and the remaining core is then ionized. When enough atoms are ionized to noticeably change the electrical nature of the gas, this is called plasma. This state of aggregation is also called gas discharge and is very common in nature: in addition to dark energy (1-db particles in space / time), 99% of the mass known to us in the universe consists of plasma.

SUMMARY OF THE INVENTION

The present invention describes how 1-db particles in a plasma can interact with each other and how photons can be produced.

To this end, the invention provides an apparatus according to claim 1, an assembly according to claim 8 and a method according to claim 11.

A plasma lamp was first described by Tesla and was designated by him as an inert gas discharge tube. This known inert gas discharge tube is normally filled with an inert gas. However, according to an aspect of the invention, it is filled with a gas with a spin = | This gas is preferably hydrogen. A plasma is created in this spin gas. The plasma is brought into a powerful electromagnetic field (Fig. 1). The electromagnetic field must be so powerful that the atoms will act like magnets "aligned" within the field. Photons (fy-) (in accordance with equation [3]) will arise in the plasma because 1-db particles interact with each other. The set-up can be placed in a Faraday cage to eliminate potential disturbing fields.

The photons (phy-) formed with the aid of the method and / or device can be collected with existing light-sensitive elements with which current and / or heat can be generated. Such a combined system (photon generator and light-sensitive elements) can be used in various ways for power and / or heat supply (cars, homes, industrial processes).

In use of the device or when the method is used, the gas with spin = | not consumed. It only serves as a kind of catalyst for forming photons from the 1-db particles. As said, these 1-db particles move freely through space / time and therefore also automatically penetrate the light-transmitting housing where they are paired with each other and form photons. The energy emitted by the device in the form of photons is therefore first supplied from the universe in the form of the 1-db particles freely circulating in that universe. The energy that the system uses to form the plasma and to form the magnetic field is only a fraction of the energy that is supplied in the form of the 1-db particles that are combined in the system to form the photons. The remaining energy present in produced photons can be usefully applied, for example for generating electricity by means of photovoltaic cells or for heating a medium such as a gas or liquid in, for example, collectors.

BRIEF DESCRIPTION OF THE FIGURES

FIG. 1 schematically shows a cross-sectional view of an example of a device with the aid of which the photons can be generated.

DETAILED DESCRIPTION

An example of the device is shown in Figure 1. In the most general terms, a device for producing photons is provided, the device comprising a plasma lamp comprising:

A light-transmitting housing 10 that is filled with a gas G;

An electrode 12 arranged in or near the housing to form a plasma in the gas; and a power supply 14 for electrically energizing the electrode model 2.

The gas in the plasma lamp is characterized by spin = L

The device 16, 18 is furthermore provided with a device for creating a magnetic field in the light-transmitting housing.

With arrow 24 the supply of 1-db particles from the universe into the plasma of the gas with spin =; indicated. Combining these 1db particles into pairs in the magnetized plasma leads to the formation of photons. The photons can for example be collected by a converter 20, such as a collector or a photovoltaic panel. The electrical power or heated medium thus generated can be transported via lines 22 to a consumer.

In one embodiment, the light-transmitting housing can be tubular and extend in an axial direction. The device for creating a magnetic field in the light-transmitting housing can herein comprise a coil 16 which is provided with electrically conductive windings. The windings wrap the tubular light-transmitting housing 10 to form a magnetic field in the tubular housing that extends in the axial direction.

In one embodiment, the gas in the plasma lamp can be hydrogen.

In one embodiment, the electrode power supply may be an AC power supply 14 with a voltage in the range of 2-10 kV and a frequency in the range of 20 - 50 kHz.

In one embodiment, the power supply 14 for the electrode may comprise a DC voltage source as well as a high-voltage transformer and an electronic high-frequency oscillator.

In one embodiment, the device 16, 18 for creating a magnetic field in the light-transmitting housing 10 may comprise a coil 16 connected to a direct current source 18.

In further elaboration of this embodiment, the direct current source 18 can be a battery.

Furthermore, an assembly is provided of the device for producing photons as described above and a converter 20 for converting the energy present in the produced photons into electrical power and / or heat.

In one embodiment, the converter 20 may comprise a photovoltaic cell.

In one embodiment, the converter 20 may comprise a collector for generating heat in a heat transfer medium, such as a liquid or a gas.

Finally, a method is provided for producing photons. The method comprises:

• providing a gas that is characterized by spin =; in a light-transmitting housing 10;

Creating a plasma in the gas by forming an electric field in the light-transmitting housing 10; and • creating a magnetic field in the light-transmitting housing 10.

In one embodiment, the gas with spin = _{y can be} hydrogen gas.

In one embodiment, the electric field can be an alternating voltage field formed by an electrode connected to an alternating voltage source.

In one embodiment, the magnetic field can be constant and be formed by a coil 16 connected to a direct voltage source 18.

In one embodiment, the method may further comprise:

• collecting the photons produced and converting the energy contained therein into heat by heating a medium such as a gas or a liquid and / or into electric current.

Moses slogan

Inventor Invention by Jelle Ebel van der Schoot based on the theory devised by Gerhard Jan Smit Date of discovery December 1, 2016 Place Noviomagus Date January 4, 2017

Claims (15)

CONCLUSIONS A device for producing photons comprising: • a plasma lamp with: o a light-transmitting house that is filled with a gas; o an electrode arranged in or near the housing to form a plasma in the gas; and a power supply for electrically energizing the electrode; characterized in that • the gas in the plasma lamp is characterized by spin = b • a device for creating a magnetic field in the light-transmitting housing. The device of claim 1, wherein the light-transmitting housing is tubular and extends in an axial direction, and wherein the device for creating a magnetic field in the light-transmitting housing comprises a coil provided with electrically conductive windings, the windings wrap the tubular light-transmitting housing to form a magnetic field in the tubular housing that extends in the axial direction. The device of claim 1 or 2, wherein the gas in the plasma lamp is hydrogen. The device according to any of the preceding claims, wherein the electrode power supply is an AC power supply with a voltage in the range of 2-10 kV and a frequency in the range of 20 - 50 kHz. The device of claim 4, wherein the power supply for the electrode comprises a direct current source as well as a high-voltage transformer and an electronic high-frequency oscillator. The device according to any of the preceding claim, wherein the device for creating a magnetic field in the light-transmitting housing comprises a coil connected to a direct current source. The device of claim 1, wherein the direct current source is a battery. An assembly of the device according to any one of the preceding claims and a converter for converting the energy present in the produced photons into electrical power and / or heat. The assembly of claim 8, wherein the converter comprises a photovoltaic cell. The assembly of claim 8 or 9, wherein the transducer comprises a collector for generating heat in a heat transfer medium, such as a liquid or a gas. A method for producing photons comprising: Providing a gas characterized by spin = 7 in a light-transmitting housing; • creating a plasma in the gas by forming an electric field in the light-transmitting housing; and • creating a magnetic field in the light-transmitting housing. The method of claim 11, wherein the gas with spin = 1 is hydrogen gas. The method of claim 11 or 12, wherein it is electric 5 field is an alternating voltage field formed by an electrode connected to an alternating voltage source. The method of any one of claims 11-13, wherein the magnetic field is constant and is formed by a coil that is 10 connected to a direct voltage source. The method of any one of the preceding claims, further comprising: • collecting the photons produced and converting the Energy contained therein in heat by heating a medium such as a gas or a liquid and / or in electrical power. o Ν CN