May 1st 2018 - Pressure Bulbs and CBS-D color system

If light is pressure, can you store light energy ?
Yes. You can build pressurized aerosol cans, which spreads light. The required pressures are small. One can lasts long, you can recharge the can with few blows. Pressure bulb does not need heat for creating the light. With pressure bulbs it is easy to convert recorded CBS colors back to light, pictures and frames. Excellent solution for next generation display tech. Good reason to hurry speaker based light research.

Can you build pressure bulbs with speaker tech ?
You can copy the principle from speakers. Instead of cone, you use cylinder. You vibrate the cylinder with given frequency. The power / brightness comes from the length of horizontal move. Saturation comes from the height of the cylinder's air output. Pressure bulb needs two magnets. First vibrates and makes the horizontal move. Second adjusts the saturation / output height. The cylinder is obviously rectangled pipe.

How do you capture CBS signal ?
Capturing could follow eyes. Lets see : Eye has pressure bulbs, eye sends outgoing signals with them. First eye sends signal. Signal always stops to first collision. All collisions results into unions with other light waves, all the colors blend into return signal. The angle of collision differs. Direct light collides with over 90 degrees angle, indirect collision angle goes down from 90 degrees. 

Cannot say, how you detect distance of a distant direct light. Cannot say, why stars do not look like weak bulbs right in front of you. Since you can see stars in rotational field, the knowledge must be in the signal or the collision point. At some point distance converts to a knowledge, that this thing is far away from me. Knowledge about nearby distance is needed, when you for example take a grip from door handle. Outside the i-eye-Max world, you can get the 3d data with only one eye.

Okay. Back to earth. The outgoing ray creates AC like feedback system with the collision point. The feedback system delivers the results from the collision back to eye. Otherwise it would impossible for the return signal to come back into eye. In feedback system, partially transparent objects have a chance to affect to the signal, like they are known to do. In darkness outgoing signal does not collide.

Eye's lens collects and compacts bulbs' signals into eye. It looks like that eye does not keep breaks, eyes are not known to blink. Also possible, that you cannot see the blinking. Eyes are known to operate with 70Hz speed. 70 Hz sets limit to the time, eye can wait the return signal.

In camera you replace back screen with sensors, which records the incoming wave data. Currently cameras uses mirrors instead of the bulbs. For recording you need one 2D sensor and one 1D sensor. Or alternatively one 3D sensor, it could be reversed pressure bulb. Brightness is the length of pulse, Color is frequency, Saturation is height of pulse. Distance should be calculated from the return time. Return time varies with used capturing device, so you must always convert time into universal distance.

According to current knowledge, the feedback requires constant outgoing stream. And a lens system, which redirects the incoming signal. This would at least require that outgoing signal is out of the visible light range. Another requirement for system is that thread size of the outgoing signal is as small as smallest light beam. 

- In principle bulbs should use ultraviolet light wave. Ultraviolet light bulb is invisible to our eyes. So it is possible, that the black hole ( pupil / pupillary ), is the bulb, which sends the signal. And the colored iris collects the signals. Pupil-iris system is connected to our body. You move eyes with this connector tendon.
- Eye is said to project the incoming signal into back of the eye via black hole. More obvious that the sight is created with iris-pupil system. And eyeballs are used for setting the direction of the sight. Power and communication line for the iris-pupil system.

Future and further studies shows how it goes. Research of the lens optics says how it goes. The incoming beam goes to capture unit, outgoing beam for the same dot comes from bulb.

Hmm ... common belief about special meaning of eye-to-eye contact seems to be true. Jack darling. What are you. A scientist or a relationship expert ?
Both. With power of bulbs you play with collision point of the signals. You can always sense the distance to the collision point. When you increase the power of the outgoing signal, you are interested and want to get closer to a beautiful woman. And so on ... 

... a major scientific breakthrough in body language, possibly the first ever ...
... eye-to-eye contact is known to have some meaning also in animals' communication systems. In eye-to-eye contact two almost equal opposite waves operates in same space. According to current knowledge, eyes should be capable of adjusting the outgoing signal's qualities. Our knowledge about wave networks is not yet complete. Separation for example is not yet fully explained. 

How do you build and check pressure bulbs ? 
It is possible to use miniature microphone-speaker system with pressure bulbs. System works. Since light is horizontal wave system is not very good. Audio-system produces all colors into different position on the cone. But cone spreads the pressure, it sends the pressure into multiple direction, feature which is needed in light bulbs.  Pressure bulb has very limited viewing angle. 

Display bulb system's diameter  is around 0.2 mm, or 2 million atoms. Transistors in computer's CPU are 20 - 30 nm, one transistor is around 200 atoms long.

From these the smallest magnetic cone-heart would be ... magnet-300 + space + heart-300 + space + magent-300  ... around 1000 atoms. Bulb which produces only one color, needs only one vibrator.

The missing theoretic base does not prevent you from checking and building the bulbs. 

 

Light wave generator and motor
 CBS / CBS-D pressure bulb

In the diagram you create multiple threads for one bulb. The piston size equals bulb size. Bulb size is always bigger than the beam size. The holes in saturation plate system equals to the height of the pressure pulse. The length-power and frequency come from the piston's movement. Piston is air tight, the back pressure changes must be collected. Otherwise they brake and neutralize the front pressure changes. 

With one saturation plate, you get multiple colors, single saturation. With two plates you can adjust the height and width. With saturation plates you can give direction to outgoing light beams. Possible to use separate directional plate after saturation plates.

You hide the operating system for saturation plates with directional holes. Pressure bulb is kind of an upgraded miniature from old CRT tech. CRT tech used electron canon and fixed saturation plates for whole screen.

Besides piston magnet, you can use compounds for creating the vibration. Compound must expand and shrink with small AC signal. Compound piston would be free from back-pressure problematic. You could use the same compound in saturation plates. 

- - Capturing system - -

Capture device is almost like bulb. Color and power capture goes with piston's movement. Then you can measure saturation with sensors in piston. Saturation is the height of beam. When you know the infected height, saturation is measured height / 2. Capture system does not need saturation plates. With plates you can filter the incoming signal.

- - Applications - -

With piston-plate system you can create very powerful lights and light beams. With directional saturation plate you can gather beams, so that they all point into same place. Produced beam is much more powerful and sharper than laser and blue ray beams. System can be scaled to whole frequency range. From almost 0 to highest ultraviolet.

Pressure bulbs and sounds :
System with what you create synth sounds is simpler than pressure bulb. It is bigger, and the vertical sound wave can never have a feedback system. With bulb tech you can create all kinds of sounds, unheard are also possible.

Pressure bulb tools :
With pressure bulb tech you can create all kinds of tools. Like laser cutters, polishers, welders, heaters, welding machines and so on. Pressure bulb tech has an awful lot of potential usage.  In cutting new bulb tech increases accuracy an awful lot. With piston system you can cut big stone blocks from mountains. With titled angles you can dig tunnels for highways.

Pressure bulb solar cells :
With piston system it is possible to convert sunbeams into electricity. With piston system you can check and collect all light wave frequencies from the sun. All fires creates invisible pressures around the flames. If sun burns at the edge of gravitational and rotational field, in space invisible light waves forward like visible light. When so, space solar plant can collect energy from these powerful waves with piston system.

Pressure bulb radars :
You can obviously build powerful planetary radars to space ships and telescopes. With sonar system, you could get inside fire and stars. Fire does not keep much noise, neither does it produce much destructive low frequency light waves. With multiple scans from the same area, you can eliminate part from waves, which comes from the fire. Obvious that light wave would forward in the same way than electric wave. So that it packs pressures into single thread ( not possible with vertical sound waves ). Crossing threads need the packing feature.

Sonar is quite obviously a low frequency light-wave radar system. Sonar misses cones, which are used with sounds. Sounds do not provide feedback to sender. They echo into everywhere. In water, you need more power than in air.

Pressure bulb weapons :
With piston system you can build beam weapons from the SciFi movies. Since system is free from traditional bulbs, you can put almost as much power into sharp, small beam as you wish. Wave's natural limitations and piston system limits the maximum power. Size matters, bigger gun can produce more power. Besides warfare beam gun suits for hunting, sports, gang wars, bank robberies, self defense, etc.

+ Beam weapons are faster and therefore more accurate than traditional barrel-bullet weapons.
+ Their effective range is longer.
+ Their destructive power can be adjusted.
+ They are almost completely independent from the winds.
+ Gun does not keep much noise. It can be adjusted so, that you cannot see the beam. You are dead before you notice, that you were shot.
+ With electro magnetic battery, weapon and rounds are light, the number of shots per round is enormous. You do not die, because you ran out of bullets.
+ Gun never kicks like pistols, rifles and others.
- Beam does not bend-down like cannon balls. Beam weapons are expensive. They do not suit well for traditional one-time usage.

+ It is possible to create beam shotguns, which spreads the beams like shotgun does. Shape of spreading can vary, depends on the shape of directional head / plate. 
+ One gun can have shotgun and rifle heads / barrels.

+ Big beam weapon can be used as antiaircraft weapon. You can shoot planes, missiles and nuclear missiles from high altitudes. Difficult to detect the small and fast incoming beams.
- Ships are difficult for beams, ship does not usually sink to a one small hole in the hull ( The hole must always be over the waterline ).
- Tanks and other armored vehicles are difficult, but not entirely impossible for the beams.

+ In Space Wars beam weapons are good. You can even build Death Stars from Star Wars movies with piston system.
- Problem is, that in space wars you usually fight against properly armored ships and troops. Proper armors are as efficient as the weapon.
? Light sabers from Star Wars movies are not possible. Saber needs a cap at the end of the blade.

+ Traditional armors are more or less useless against beam weapon. When you see that enemy has an armor, all you have to do, is to keep the trigger down longer than usual. 
- Shield against beam weapons is mirror or glittering painting. Unlike Alice, sharp light beam never goes through the looking glass. Mirror provides 98% armor against beam weapon. With 2% penetration power it takes quite a long time before the beam gets through.

- - CBS and Pressure Bulb display - -

In new display tech you should use analog AC radio waves for sending CBS and CBS-D codes to display. Analog signal is independent from bit-depth of the pixel. 

Display operates like speaker, it uses AC streams for adjusting the bulbs. In CBS-D display all pixels must be synchronized. Each bulb needs two memories with switches. You swap the memories all the time. You collect pixel data to bulb memory. When clock strikes you swap bulb memory to screen memory . You feed the screen with screen memory until clock strikes for the next time. During the time you feed screen with screen memory, you collect next screen to the memory you used as screen memory for previous screen ( which you converted into bulb memory, when clock stroke ).

Collecting data for multiple pixels with one wire : After you have stored bulb data to memory, you close the wire and move to next set of bulbs ( which forms the next pixel ). Then you reset the wire. Reset reactivates graphic card, it sends next pixel into display.

System with cameras, scanners and video cameras is much the same. Pressure sensor sends the return signal to capture memory, right after it comes. Camera and scanner does not need buffers. Video camera needs swap memory system. CBS can use JPEG like packing. CBS is quite a lot easier to pack than RGB.

What about A/C computer ?
Deca-tech computer is an A/C computer. Deca-Tech was 6 years old, when I locked the tech. 

Can you unlock Deca-Tech in the same way than R&D Power Solutions ?
Don't know. Suppose I can.
Think, that I can unlock Deca-Tech.
Should we ask Jack ?
Why bother. You already know, what he will say.