Tag Archives: technology


“It is my intention, although is not a part of my mission orders, to assist you in your efforts to advance scientific and humanitarian progress on Earth.  My intention is to help other IS-BEs to help themselves. In order to solve the amnesia problem on Earth you will need much more advanced technology, as well as social stability to allow enough time for research and development of techniques to free the IS-BE from the body, and to free the mind of the IS-BE from amnesia. 

Although The Domain has a long term interest in maintaining Earth as a useful planet, it has no particular interest in the human population of Earth, other than its own personnel here.  We are interested in preventing destruction, as well as accelerating the development of technologies that will sustain the infrastructures of the global biosphere, hydrosphere and atmosphere.  

To this end, you will discover, on very careful and thorough examination, that my space craft contains a wide assortment of technology that does not yet exist on Earth.  If you distribute pieces of this craft to various scientists for study, they will be able to reverse engineer  [i] (Footnote) some of the technology to the extent that Earth has the raw materials required to replicate these components.   

Some features will be indecipherable.  Other features cannot be duplicated as Earth does not have the natural resources required to replicate them.  This is especially true of the metals used to construct the craft.  Not only do these metals not exist on Earth, the refining process required to produce these metals took billions of years to develop. 

It is also true of the navigation system which requires an IS-BE whose own personal wavelength has been specifically attuned to the “neural network” of the craft. [ii] (Footnote)  The pilot of the craft must possess a very high order of energy volition, discipline, training and intelligence to manipulate such a craft.  IS-BEs on Earth are incapable of this expertise because it requires the use of an artificial body specifically created for this purpose. 

Certain individual Earth scientists, some of whom are among the most brilliant minds in the history of the universe, will have their memory of this technology jogged when they examine the craft components.  Just as some of the scientists and physicists on Earth have been able to “remember” how to recreate electric generators, internal combustion and steam locomotion, refrigeration, aircraft, antibiotics, and other tools of your civilization, they will also rediscover other vital technology in my craft. 

The following are the specific systems embodied in my craft that contain useful components: 

1)  There is an assortment of microscopic wiring or fibers [iii] (Footnote) within the walls of the craft that control such things as communications, information storage, computer function, and automatic navigation.   

2)  The same wiring is used for light, sub-light and ultra-light spectrum detection and vision.  [iv] (Footnote)

3)  The fabrics of the interior of the craft [v] (Footnote) are far superior to any on Earth at this time and have hundreds or thousands of applications. 

4)  You will also find mechanisms for creating,  amplifying and channeling light particles or waves as a form of energy.  [vi] (Footnote)  

As an officer, pilot and engineer of The Domain Forces, I am not at liberty to discuss or convey the detailed operation or construction of the craft in any way, other than what I have just disclosed.  However, I am confident that there are many competent engineers on Earth who will develop useful technology with these resources.   

I am providing these details to you in the hope that the greater good of The Domain will be served.”

— Excerpt from the Top Secret military transcipts published in the book ALIEN INTERVIEW, edited by Lawrence R. Spencer



[i]   “… will be able to “reverse engineer” the technology…”

“After joining the Army in 1942, Philip Corso served in Army Intelligence in Europe.  In 1945, Corso arranged for the safe passage of 10,000 Jewish WWII refugees out of Rome to Palestine. During the Korean War (1950-1953), Corso performed Intelligence duties under General Douglas MacArthur as Chief of the Special Projects branch of the Intelligence Division, Far East Command. One of his primary duties was to keep track of enemy prisoner of war (POW) camps in North Korea. Corso was in charge of investigating the estimated number of U.S. and other United Nations POWs held at each camp and their treatment. At later held congressional hearings of the Senate Select Committee on POW/MIA Affairs, Philip Corso would provide testimony that many hundreds of American POW’s were abandoned at these camps.

Corso was on the staff of President Eisenhower’s National Security Council for four years (1953-1957). In 1961, he became Chief of the Pentagon’s Foreign Technology desk in Army Research and Development, working under Lt. Gen. Arthur Trudeau. When he left military intelligence in 1963, Corso became a key aide to Senator Strom Thurmond. In 1964, Corso was assigned to Warren Commission member Senator Richard Russell Jr. as an investigator into the assassination of John F. Kennedy.

Philip Corso relates in his book The Day After Roswell (co-author William J. Birnes) how he stewarded extraterrestrial artifacts recovered from a crash at Roswell, New Mexico in 1947.

According to Corso, the reverse engineering of these artifacts indirectly led to the development of accelerated particle beam devices, fiber optics, lasers, integrated circuit chips and Kevlar material.

In 1947, according to Corso, a covert government group (see Majestic 12) was assembled under the leadership of the first Director of Central Intelligence , Adm. Roscoe H. Hillenkoetter. Among its tasks was to collect all information on extraterrestrial spacecraft. The US administration simultaneously discounted the existence of flying saucers in the eyes of the public, Corso says.  Corso further relates that the Strategic Defense Initiative (SDI), or Star Wars, was meant to achieve the capability of killing the electronic guidance systems of incoming enemy warheads and disabling enemy spacecraft, including those of extraterrestrial origin.”

— Reference:  Wikipedia.org

[ii]  “… attuned to the “neural network” of the craft.”

“Traditionally, the term Neural Networks had been used to refer to a network or circuit of biological neurons. The modern usage of the term often refers to artificial neural networks, which are composed of artificial neurons or nodes. Thus the term ‘Neural Network’ has two distinct usages:

1)  Biological neural networks are made up of real biological neurons that are connected or functionally-related in the peripheral nervous system or the central nervous system. In the field of neuroscience, they are often identified as groups of neurons that perform a specific physiological function in laboratory analysis.

2)  Artificial neural networks are made up of interconnecting artificial neurons (programming constructs that mimic the properties of biological neurons). Artificial neural networks may either be used to gain an understanding of biological neural networks, or for solving artificial intelligence problems without necessarily creating a model of a real biological system.”

— Reference:  Wikipedia.org

[iii]    “…microscopic wiring or fibers…”

The transistor was invented in 1947.  It was considered a revolution. Small, fast, reliable and effective, it quickly replaced the vacuum tube. Freed from the limitations of the vacuum tube, engineers finally could begin to realize the electrical constructions of their dreams.

It seems that the integrated circuit was destined to be invented. Two separate inventors, unaware of each other’s activities, invented almost identical integrated circuits or ICs at nearly the same time.

Jack Kilby, an engineer with a background in ceramic-based silk screen circuit boards and transistor-based hearing aids, started working for Texas Instruments in 1958. A year earlier, research engineer Robert Noyce had co-founded the Fairchild Semiconductor Corporation. From 1958 to 1959, both electrical engineers were working on an answer to the same dilemma: how to make more of less.

Although the first integrated circuit was pretty crude and had some problems, the idea was groundbreaking. By making all the parts out of the same block of material and adding the metal needed to connect them as a layer on top of it, there was no more need for individual discrete components. No more wires and components had to be assembled manually. The circuits could be made smaller and the manufacturing process could be automated.

Jack Kilby (Texas Instruments) is probably most famous for his invention of the integrated circuit, for which he received the Nobel Prize in Physics in the year 2000. After his success with the integrated circuit Kilby stayed with Texas Instruments and, among other things, he led the team that invented the hand-held calculator.

Jack Kilby now holds patents on over sixty inventions and is also well known as the inventor of the portable calculator (1967). In 1970 he was awarded the National Medal of Science. Robert Noyce, with sixteen patents to his name, founded Intel, the company responsible for the invention of the microprocessor, in 1968. But for both men the invention of the integrated circuit stands historically as one of the most important innovations of mankind. Almost all modern products use chip technology.

— Reference:  Wikipedia.org

[iv] “…wiring is used for light, sub-light and ultra-light spectrum detection and vision.”

An optical fiber is a glass or plastic fiber designed to guide light along its length. Fiber optics is the overlap of applied science and engineering concerned with the design and application of optical fibers. Optical fibers are widely used in fiber-optic communication, which permits transmission over longer distances and at higher data rates than other forms of communications. Fibers are used instead of metal wires because signals travel along them with less loss, and they are immune to electromagnetic interference. Optical fibers are also used to form sensors, and in a variety of other applications.

In 1952, physicist Narinder Singh Kapany conducted experiments that led to the invention of optical fiber, based on Tyndall’s earlier studies; modern optical fibers, where the glass fiber is coated with a transparent cladding to offer a more suitable refractive index, appeared later in the decade.

In 1991, the emerging field of photonic crystals led to the development of photonic crystal fiber (Science (2003), vol 299, page 358), which guides light by means of diffraction from a periodic structure, rather than total internal reflection. The first photonic crystal fibers became commercially available in 1996. Photonic crystal fibers can be designed to carry higher power than conventional fiber, and their wavelength dependent properties can be manipulated to improve their performance in certain applications.”

— Reference:  Wikipedia.org

[v]   “… fabrics of the interior of the craft…”  

“Technical textiles is the term given to textile products manufactured for non aesthetic purposes, where function is the primary criterion.  This is a large and growing sector and supports a vast array of other industries.

It has been heard that soon textiles will be merged with electronics in all areas. In future wearable computers would be launched, these will not be like advance wrist watches etc, they will contain IC s in fabric to develop fabric keyboards and other wearable computer devices. These types of products are known as Interactive electronic textiles (IET).  Research to support IET development is being conducted in many universities. Growing consumer interest in mobile, electronic devises will initiate the demand for IET products.

Technical textiles include textile structures for autmotive applications, medical textiles (e.g. implants), geotextiles (reinforcement of embankments), agrotextiles (textiles for crop protection), protective clothing (e.g. against heat and radiation for fire figther clothing, against molten metals for welders, stab protection and bulletproof vests), spacesuits (astronauts).”

Biotextiles are structures composed of textile fibers designed for use in specific biological environments where their performance depends on biocompatibility and biostability with cells and biological fluids. Biotextiles include implantible devices such as surgical sutures, hernia repair fabrics, arterial grafts, artificial skin and parts of artificial hearts. They were first created 30 years ago (1978) by Dr. Martin W. King, a professor in North Carolina State University’s College of Textiles.

Medical textiles are a broader group which also includes bandages, wound dressings, hospital linen, preventive clothing etc. Antiseptic biotextiles are textiles used in fighting against cutaneous bacterial proliferation. Zeolite and triclosan are at the present time the most used molecules. This original property allows to inhibits the development of odors or bacterial proliferation in the diabetic foot.”

— Reference:  Wikipedia.org

[vi]  “… mechanisms for creating,  amplifying and channeling light particles or waves as a form of energy.”

In 1947, Willis E. Lamb and R. C. Retherford found apparent stimulated emission in hydrogen spectra and made the first demonstration of stimulated emission.  In 1950, Alfred Kastler (Nobel Prize for Physics 1966) proposed the method of optical pumping.

The work of Schawlow and Townes, however, can be traced back to the 1940sand early 50s* and their interest in the field of microwave spectroscopy, which had emerged as a powerful tool for puzzling out the characteristics of a wide variety of molecules.

The invention of the laser, which stands for light amplification by stimulated emission of radiation, can be dated to 1958 with the publication of the scientific paper, Infrared and Optical Masers, by Arthur L. Schawlow, then a Bell Labs researcher, and Charles H. Townes, a consultant to Bell Labs. That paper, published in Physical Review, the journal of the American Physical Society, launched a new scientific field and opened the door to a multibillion-dollar industry.

Many different materials can be used as lasers. Some, like the ruby laser, emit short pulses of laser light. Others, like helium-neon gas lasers or liquid dye lasers emit a continuous beam of light.

*NOTE:  According to the book, “The Day After Roswell”, reports about microwave and light projecting components from the Roswell “flying disc”, technology were “leaked” to Bell Laboratories through the Pentagon.

— Reference:  Wikipedia.org

Originally posted 2012-04-27 17:34:08. Republished by Blog Post Promoter



“The following are the specific systems embodied in my craft that contain useful components:

1)  There is an assortment of microscopic wiring or fibers  within the walls of the craft that control such things as communications, information storage, computer function, and automatic navigation.  

2)  The same wiring is used for light, sub-light and ultra-light spectrum detection and vision.

3)  The fabrics of the interior of the craft are far superior to any on Earth at this time and have hundreds or thousands of applications

4)  You will also find mechanisms for creating,  amplifying and channeling light particles or waves as a form of energy. 

As an officer, pilot and engineer of The Domain Forces, I am not at liberty to discuss or convey the detailed operation or construction of the craft in any way, other than what I have just disclosed.  However, I am confident that there are many competent engineers on Earth who will develop useful technology with these resources.  

I am providing these details to you in the hope that the greater good of The Domain will be served.”

 –Excerpted from Top Secret transcripts published in the book, Alien Interview

Originally posted 2009-11-12 23:23:20. Republished by Blog Post Promoter



“Humankind has developed more technology in the past 100 years than in the previous 2,000 years.  Why?  The answer is simple:  the influence of the “Old Empire” over the mind and over the affairs of Mankind has been diminished by The Domain.

A renaissance [i] (Footnote) of invention on Earth began in 1,250 AD with the destruction of the “Old Empire” space fleet in the solar system.  During the next 500 years, Earth may have the potential to regain autonomy and independence, but only to the degree that humankind can apply the concentrated genius of the IS-BEs on Earth to solve the amnesia problem.

However, on a cautionary note, the inventive potential of the IS-BEs who have been exiled to this planet is severely compromised by the criminal elements of the Earth population.  Specifically, politicians, war-mongers and irresponsible physicists who create  unlimited weapons such as nuclear bombs, chemicals, diseases and social chaos.  These have the potential to extinguish all life forms on Earth, forever.

Even the relatively small explosions that were tested and used in the past two years on Earth have the potential to destroy all of life, if deployed in sufficient quantities. Larger weapons could consume all of the oxygen in the global atmosphere in a single explosion! [ii] (Footnote)

Therefore, the most fundamental problems that must be solved in order to ensure that Earth will not be destroyed by technology, are social and humanitarian problems.  The greatest scientific minds of Earth, in spite of mathematical or mechanical genius, have never addressed these problems.

Therefore, do not look to scientists to save Earth or the future of humanity.  Any so-called “science” that is solely based on the paradigm [iii] (Footnote) that existence is composed only of energy and objects moving through space is not a science.  Such beings utterly ignore the creative spark originated by an individual IS-BE and collective work of the IS-BEs who continually create the physical universe and all universes.  Every science will remain relatively ineffective or destructive to the degree that it omits or devaluates the relative importance of the spiritual spark that ignites all of creation and life.”

— Excerpt from the Top Secret transcripts published in the book ALIEN INTERVIEW, edited by Lawrence R. Spencer


[i] “… Renaissance…”The Renaissance (from French Renaissance, meaning “rebirth”; Italian: Rinascimento, from re- “again” and nascere “be born”) was a cultural movement that spanned roughly the 14th through the 17th century, beginning in Italy in the late Middle Ages and later spreading to the rest of western Europe. It encompassed a revival of learning based on classical sources, the development of linear perspective in painting, and educational reform. The Renaissance saw developments in most intellectual pursuits, but is perhaps best known for its artistic aspect and the contributions of such polymaths as Leonardo da Vinci and Michelangelo, who have inspired the term “Renaissance men”.However,  it was not until the nineteenth century that the French word Renaissance achieved popularity in describing the cultural movement that began in the late 13th century”  (1200 AD – 1300 AD).The term was first used retrospectively by the Italian artist and critic Giorgio Vasari (1511-1574) in his book The Lives of the Artists (published 1550). In the book Vasari was attempting to define what he described as a break with the barbarities of gothic art: the arts had fallen into decay with the collapse of the Roman Empire and only the Tuscan artists, beginning with Cimabue (1240-1301) and Giotto (1267-1337) began to reverse this decline in the arts. According to Vasari, antique art was central to the rebirth of Italian art. During the 12th century in Europe, there was a radical change in the rate of new inventions and innovations in the ways of managing traditional means of production and economic growth. In less than a century, there were more inventions developed and applied usefully than in the previous thousand years of human history all over the globe. The period saw major technological advances, including the adoption or invention of printing, gunpowder, spectacles, a better clock, the astrolabe, and greatly improved ships. The latter two advances made possible the dawn of the Age of Exploration.Alfred Crosby described some of this technological revolution in The Measure of Reality : Quantification in Western Europe, 1250-1600 and other major historians of technology have also noted it.

  • The earliest written record of a windmill is from Yorkshire, England, dated 1185.
  • Paper manufacture began in Italy around 1270.
  • The spinning wheel was brought to Europe (probably from India) in the 13th century.
  • The magnetic compass aided navigation, first reaching Europe some time in the late 12th century.
  • Eyeglasses were invented in Italy in the late 1280s.
  • The astrolabe returned to Europe via Islamic Spain.
  • Leonardo of Pisa introduces Hindu-Arabic numerals to Europe with his book Liber Abaci in 1202.
  • The West’s oldest known depiction of a stern-mounted rudder can be found on church carvings dating to around 1180.”

— Reference:  Wikipedia.org

[ii] “… explosions that were tested and used in the past two years on Earth have the potential to destroy all of life…”“A doomsday device is a hypothetical construction — usually a weapon — which could destroy all life on the Earth, or destroy the Earth itself (bringing “doomsday”, a term used for the end of planet Earth).Doomsday devices have been present in literature and art especially in the 20th century, when advances in science and technology allowed humans to imagine a definite and plausible way of actively destroying the world or all life on it (or at least human life). Many classics in the genre of science fiction take up the theme in this respect, especially The Purple Cloud (1901) by M. P. Shiel in which the accidental release of a gas kills all people on the planet. After the advent of nuclear weapons, especially hydrogen bombs, they have usually been the dominant components of fictional doomsday devices. RAND strategist Herman Kahn proposed a “Doomsday Machine” in the 1950s which would consist of a computer linked to a stockpile of hydrogen bombs, programmed to detonate them all and bathe the planet in nuclear fallout at the signal of an impending nuclear attack from another nation. Such a scheme, fictional as it was, epitomized for many the extremes of the suicidal logic behind the strategy of mutually assured destruction, and it was famously parodied in the Stanley Kubrick film from 1964, Dr. Strangelove or: How I Learned to Stop Worrying and Love the Bomb. It is also a main topic of the movie Beneath the Planet of the Apes, in parallel with the species extermination theme. Most such models either rely on the fact that hydrogen bombs can be made arbitrarily large (see Teller-Ulam design) or that they can be “salted” with materials designed to create long-lasting and hazardous fallout (e.g.; a cobalt bomb).There are many unconfirmed, anecdotal reports of a Soviet doomsday device involving a 200-megaton hydrogen bomb sheathed in (or, alternately, “salted” with) a highly radioactive material, usually said to be cobalt, of sufficient quantity to saturate the earth’s atmosphere with deadly fallout should the device be detonated. Details regarding this device vary according to the source, but enough similarities in the dozens of different stories exist to suggest at least some basis in truth. According to various sources, at some point between 1967 and 1985, the device was designed but never constructed; built but never activated; built and activated, but dismantled at the end of the cold war; or designed and constructed in such a manner that it can never be de-activated, and is still in existence today. Tales of its location and means of operation are equally diverse: it was in an underground bunker west of Moscow, Siberia, the Ukraine, etc.; it was installed on a special rocket booster that would deliver it to the upper atmosphere upon activation; it was actually a series of bombs placed at intervals along the western border of the USSR; it was to be detonated upon command from the Kremlin, automatically by a special computer, a seismic trigger, or upon detection of incoming missiles. Many more versions exist, such as one with the device being permanently installed in the hold of an unmarked tramp freighter, steaming randomly from port to port in the North Sea.”– Reference:  Wikipedia.org[iii] “… paradigm…”

“Historian of science Thomas Kuhn gave this word its contemporary meaning when he adopted it to refer to the set of practices that define a scientific discipline during a particular period of time. Kuhn himself came to prefer the terms exemplar and normal science, which have more exact philosophical meanings. However, in his book The Structure of Scientific Revolutions Kuhn defines a scientific paradigm as:

  • what is to be observed and scrutinized
  • the kind of questions that are supposed to be asked and probed for answers in relation to this subject
  • how these questions are to be structured
  • how the results of scientific investigations should be interpreted

Alternatively, the Oxford English Dictionary defines paradigm as “a pattern or model, an exemplar.”— Reference:  Wikipedia.org

Originally posted 2011-12-02 18:45:00. Republished by Blog Post Promoter