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1
Abstract
In basic and applied research there should be no area, no taboo or ostracized subject that is
not studied.
The events of the Nimitz incident [
i
] of November 14, 2004, in particular the "Tic-Tac" affair
[
ii
] and what followed, namely the official report of the ODNI (Office of the Director of
National Intelligence) of June 25, 2021 [
iii
], have initiated a new subject of study. This new
field of research is that of Unknown Aerial Phenomena (UAPs). Formerly called UFOs, the
study of UAPs has just officially entered the field of international university research under
the impetus of open minds such as Professor Avi Loeb [
iv
] and his team at the Galileo Project
[
v
].
2021 is therefore the date that has finally brought this subject, so controversial and decried
for more than 70 years, into the realm of serious, statistical and official scientific study.
Now, it is important to lay the foundations of work in order to implement these lines of
research. Theoretical and experimental, they will allow university researchers to get closer
to the collection of exploitable scientific data on the UAPs [
vi
] and the ETCs [
vii
]
(Extraterrestrial Civilizations Technologies). The objective is to publish the work in peer-
reviewed journals to broaden the interest of the research at the international level.
This approach is essential to allow researchers from all disciplines to take ownership of this
research subject with unimagined possibilities for discovery. Potential discoveries capable of
changing the face of the known world. A radical paradigm shift in all fields.
The aim of this paper is to present a non-exhaustive list of ways of thinking, and proposals,
particularly instrumental ones. These avenues can be implemented within international,
private or university projects, aiming at collecting exploitable scientific data with an adapted
instrumentation, dedicated to the study of UAPs / ETCs.
2
About the Author
Born in 1962 in the department of Vienne (86), France, a trained senior scuba diver
technician with 14 years of professional underwater activities in teaching, underwater
works, and nuclear and underwater archaeology[
viii
]. Thereafter, in charge of the
Development of Aeronautical Training for 19 years for the French State (National Education
and the CCINCA, Nice Côte d'Azur Chamber of Commerce and Industry) until February 2020.
In parallel to these two main professional activities, 50 years of questioning about intelligent
life outside the Earth, founder in 2007 of the Phoenix Project [
ix
], member of 3AF [
x
].
Today, researcher - investigator - independent speaker on the UAPs and ETCs dossier.
3
UAPs / ETCs, a new challenge for science
Lines of research, reflections and proposals which could allow for the collection of exploitable
scientific data concerning the nature of UAPs, in and out of the terrestrial atmosphere, and
possible discoveries of active or non-active traces of ETCs in our solar system.
______
By Serge Tinland October 30, 2021
4
List of Abbreviations
AMS Automated Measurement Stations
ETCs Extraterrestrial Civilizations Technologies
LASCO Large Angle and Spectrometric Coronagraph
LIGO Laser Interferometer Gravitational-Wave Observatory
ODNI Office of the Director of National Intelligence
PAN Unidentified Aerospace Phenomenon
PSI Project Starlight International
SOHO Solar and Heliospheric Observatory
UAPs Unidentified Aerial Phenomena
UFO Unidentified Flying Object
UV Ultraviolet
3AF Aeronautical and Astronautical Association of France
5
Table of Contents
Abstract ..............................................................................................................................................1
About the Author ..................................................................................................................................... 2
List of Abbreviations ................................................................................................................................ 4
Table of Contents ..................................................................................................................................... 5
Introduction: The events of 2004-2019 ................................................................................................... 6
2.0 UAPs / ETCs, a real subject of fundamental and applied science ...................................................... 7
3.0 Axes of research to be considered ..................................................................................................... 7
4.0 Methods envisaged in the study of UAPs .......................................................................................... 8
4.1 Use of UV high resolution sensors ................................................................................................ 9
4.2 Use of high resolution spectroscopy ............................................................................................. 9
4.3 Installation of Automated Measurement Stations ...................................................................... 10
4.4 Search for emission in the 3 GHz microwave band ..................................................................... 11
4.5 Partnerships between universities and amateur observatories ................................................. 12
4.6 Developing an AI program as a performance vector .................................................................. 13
4.7 Deployment of a small team of specialized investigators in the field ......................................... 13
4.8 Use of cameras with very high recording speeds ........................................................................ 13
4.9 Satellite detection with their specialized multi-sensors ............................................................. 14
5.0 Methods considered for the detection of ETCs activities ................................................................ 16
5.1 Multi-sensor observation program directed towards the lunar surface. ................................... 16
5.2 Cooperation with NASA and the contributing countries ............................................................. 16
5.3 Detection of probes or observation stations of ETC origin ......................................................... 16
5.4 An observation of high polar orbits, from 1,700 km (1,056 miles) ............................................. 17
5.5 Access to the ESA/NASA SOHO mission ...................................................................................... 17
5.6 To have access to the Ligo Interferometer.................................................................................. 17
5.7 Program of detection of objects of type "Oumuamua" .............................................................. 18
5.8 Search for as yet unknown sounds within the solar system ....................................................... 18
5.9 Search for electromagnetic disturbances in the solar system .................................................... 18
6.0 Perspectives ................................................................................................................................ 19
Conclusion ........................................................................................................................................ 20
Acknowledgements ........................................................................................................................... 22
References ........................................................................................................................................ 23
6
Introduction: The events of 2004-2019
The UAPs and ETCs dossier has, until now, unfortunately suffered from a systematic
rejection, considered as worthless, even dangerous by the scientific community, the civil
society or the market. This illogical attitude has to, as a consequence, put aside discoveries
with potentially exceptional significance for the whole human civilization.
The events that followed one another from 2004 to 2019 during the US military maneuvers
off the west coast of the United States have allowed us to take a new look at these UAP
phenomena.
To the question: Within fundamental and applied research, what can we learn from a UAP
evolving in a dense atmosphere like the Earth's, or even outside the atmosphere?
The answer is: So much!
Why? Quite simply because the first information recorded by the various sensors embarked
in the American fighters and the radars present in the ships, cruisers or aircraft carriers, have
all brought up the same observations, namely:
- A velocity, an aerodynamic evolution capacity that cannot be found in the design of
the current fifth, or even sixth generation fighters being developed in the design
offices of US manufacturers or in the rest of the world.
- An equally astonishing capacity of evasion, given their velocities.
- A capacity to pass from the element of air to that of water without deceleration and
without leaving any obvious radar trace of emissions of their passage from one state
to another.
- A total absence of external noise.
- An absence of a supersonic bang, shock wave or bow wave even though they are
moving, in certain configurations, at speeds far in excess of the speed of sound.
- A capacity to appear spontaneously, instantaneously, without being detected far in
advance by all the multi-sensors present in the area.
- A behavior that seems directed, even "tactical", therefore, thoughtful, intelligent!
7
2.0 UAPs / ETCs, a real subject of fundamental and applied science
These few tangible points of observation would be enough for any university researcher to
initiate without further delay one or more official projects with the objective of collecting as
much scientific data as possible, allowing the advancement of the understanding and nature
of the phenomenon in question. Such an approach, with the objective of publication, should
benefit the whole scientific community, and thus widen the possibilities of exchange, debate
and reflection in an innovative field with immense possibilities for discovery. These, which
are for the moment hypothetical, could be integrated further within the civil and commercial
community for the good of the whole human civilization.
To better understand this historical problem let's take the example of ball lightning,
hallucinatory phenomenon or real? Despite the latest experiments that in 2014 have
allowed us to progress in the theoretical and physical understanding of the phenomenon, it
is still necessary to study it in order to arrive at a finalized theory accepted by all. Very
important means have been deployed to arrive at an understanding of what remained until
then for some in the realm of the imaginary, of a neuronal hallucination, yet one observed
thousands of times over centuries. Experimenting, reproducing and beginning to theorize
the process of ball lightning has allowed us to better understand certain behaviors of matter,
especially in the field of plasma physics.
So, what are we waiting for at the international level to put a minimum of intellectual
openness on a subject that has touched millions of witnesses around the world for
centuries? Research that could potentially open the doors to a New World, a new scientific,
technological, philosophical, social, political and spiritual paradigm.
Laying the first foundations of an official academic research with the objective of trying to
answer the questions raised by the factual observations of UAPs of the American Marine
Corps from 2004 to 2019 could allow us to approach an ancient enigma. An enigma that
deserves intellectual, material and financial effort from the whole international scientific
community.
3.0 Axes of research to be considered
The sequence of factual events from the Nimitz incident in 2004 to the frequent overflight of
American frigates up to July 2019 has triggered a wave of questions at an international level.
What some independent researchers working on the subject, and a section of civil and
commercial society have been waiting on for more than seventy years has arrived.
Renowned universities and researchers have finally laid the foundations for official and
factual research of the problem in question.
8
Along with many American universities such as Harvard, Yale, Princeton, and others such as
NASA, the University of Cambridge (England), the University of Torrejon de Ardoz (Spain),
the University of Bern (Switzerland)..., the list of universities and researchers [
xi
] who are
joining this new intellectual adventure is growing week by week, and coordinated by
Professor Avi Loeb of Harvard University under the aegis of the Galileo Project.
Now that the new bases of an official and academic research are laid in which direction
should we go in terms of theoretical and experimental research to have a chance to collect a
maximum of scientific data exploitable by the whole international scientific community?
Two directions seem promising, that of the theoretical and experimental study of UAPs in
and out of the Earth's atmosphere, and that of the search for the potential presence of
active or non-active artefacts of one or several technological extraterrestrial civilizations
(ETCs) within our solar system.
Within the framework of these two research axes in order to obtain exploitable data
collection results within a reasonable time frame it is necessary that the research teams be
able to push their thinking well beyond the usual boundaries of classical methodology.
In fact, in order to have the maximum chance of success it is necessary to think differently,
to imagine the unimaginable, to find oneself, with all of the research departments that have
been formed, at the center of a sphere of holistic reflection where thought no longer has any
limits. To trigger an intellectual process centered on the infinite possibilities in the paths to
be taken to achieve the expected results, namely, the collection of scientific data, both
tangible and indisputable, which can be published and taken up by the entire international
scientific community.
The strict scientific study of the data collection, both concerning UAPs, in the atmosphere
and outside the atmosphere, and the search for factual, documented clues on possible
active or non-active artefacts present within the solar system such as probes, satellites or
vessels linked to ETC activities, have to be conducted in parallel.
4.0 Methods envisaged in the study of UAPs
In order to promote a methodical and scientific approach in the search for the nature of
these phenomena, here is a non-exhaustive list of research avenues and experiments that
can be conducted at different scales[
xii
].
9
4.1 Use of UV high resolution sensors
o For the recovery of data in the ultraviolet spectrum, in addition to the visible,
infrared and peripheral wavelengths, we can rely here on the work of
Professor Auguste Meessen [
xiii
]. He used this approach in the analysis of
photos, videos and ground and airborne radar recordings of the 1989/90
UAPs observation wave in Belgium.
For Auguste Meessen [
xiv
], a search in the ultraviolet wavelength could allow a
possible detection of a UAP before its observation (trace of ionization of the
air around the UAP). But also to obtain tangible, exploitable data concerning
the mode of propulsion, its capacity of stealth and its kinetic performances.
His theoretical approach is based on the study of the divergences between the
various photo and video sources of the 1989/90 wave. For him, in addition to
the visible light as exploitable data, certain characteristics of the photos and
videos could imply UV.
The detection of a strong ionization of the air in front of or around the UAPs
of the Belgian wave could allow, according to Professor Meessen, the
emission of a radiation in the UV wavelengths.
It would be interesting to reflect further and to study the relevance of using a
hyperspectral UV imager. An imager, either already present in a satellite, or to
be installed in the ISS or in AMS (Automated Measurement Stations). This
instrumentation could be installed in multi-sensor observatories strategically
distributed on Earth. The objective is to try to detect anomalies that could be
related to the presence or activity of UAPs on the Earth's surface or in its
atmosphere.
A study of UV archives of satellite imagery of the Earth's surface (geophysical
monitoring) by a dedicated AI application, would allow, for example, the
detection of possible anomalies. Anomalies that could potentially be related
to the presence or activity of UAPs on the Earth's surface or in its atmosphere.
4.2 Use of high resolution spectroscopy
The goal is to obtain images that can be used for advanced experimental study of the
spectrum of a UAP in the atmosphere or outside the atmosphere. The use of spectro-
imaging or hyperspectral imaging would allow the identifying of the environment of a
UAP, as well as the beginning of its physical and chemical composition.
10
o Concretely, it would be necessary to install spectropolarimeters on a set of
specialized telescopes, AMS, and even on the ISS and some civil satellites, in
order to study the nature of the light of the UAPs, but also, to seek the
existence or not of a magnetic field around them. If the presence of a
magnetic field is confirmed then the calculation of its strength, the quantity
produced by the UAP and its distribution around its structure.
Indeed, if a magnetic field were to exist around a UAP the use of
spectropolarimeters with high spectral resolution in the visible, infrared or
ultraviolet ranges, and the methods associated with spectropolarimetry could
provide us with very useful information. In particular, in regards to the nature
of the flight environment of the UAPs, and thus to be able to possibly define
the type of energy used, and the associated technological methods.
The UAPs being fast aerial phenomena during certain phases of their
movements, and with a narrow visual angle it would be necessary to develop
spectropolarimeters dedicated to the specific analysis of this type of object.
4.3 Installation of Automated Measurement Stations
It would be interesting to be able to follow the steps of the team of university
researchers of Bergen and Oslo who in June 1983 initiated the Hessdalen project [
xv
].
Its objective was to record a multitude of exploitable scientific data on unknown
lights present since December 1981 within a small valley named Hessdalen, in
Norway. For that, they imagined and conceived AMS [
xvi
], along the lines of the
Project Starlight International (PSI) [
xvii
], for an official scientific study of the UAPs
(Unidentified Aerospace Phenomenon) at the European level [
xviii
].
The objective of the PSI, founded in 1964 by Raymond D. Stanford [
xix
] was the
collection of tangible data on UAPs for the scientific community. For this purpose he
and a team of engineers created the very first AMS equipped with important
instrumentation: magnetometers, gravimeter, spectrometer, radar, laser-telescope-
video system as well as other electronic and optical systems potentially able to
record the physical effects, optical images and localization of UAPs. The PSI has
obtained and accumulated very interesting data throughout its activity. Data always
available, but only for the university scientific community, which can be used for
further research.
These stations for the study of UAPs would be equipped with an optical diffraction
grating, directly connected to the high resolution multi-sensors integrated in the AMS
structure.
11
The objective is to be able to obtain very high resolution spectral imaging in order to
collect data from a light spectrum to analyze and try to identify the origin, and the
possible nature of UAPs. All "objects" that emit light have a very precise spectral
identity.
To be able to obtain very readable spectra with the high resolution of UAPs would
make it possible to acquire very concrete, exploitable data and to carry out
comparisons with what is already known, and therefore advance a theoretical and
physical comprehension of their possible nature.
4.4 Search for emission in the 3 GHz microwave band
Objective: to develop an innovative experiment, not yet implemented to date, in
order to confirm the presence of an emission in the 3 GHz microwave band of certain
UAPs.
As a reminder, in the 60s and 70s, some researchers asked themselves the following
question: Do some UAPs emit signals at 3 GHz?
Why this question? It is in reference to the RB-47 incident of July 17, 1957 [
xx
] in the
southern United States, a very well documented case:
o During this unusual incident the electronic countermeasure direction finding
devices and the ground radar did detect a strong source of emission in the 3
GHz wavelength, not to mention the ground personnel who simultaneously
visually observed the course of events.
All this very concrete, very real and fully documented data made it possible by
convergence to determine that it was indeed the UAP which was the source of
the signal!
o Then, pushing thought and logic to their maximum, the UAPs must rationally
communicate between themselves, exchanging data, and information in the
atmosphere or outside the atmosphere.
Thus, assuming that a UAP can transmit signals, whether close to this 3 GHz
wavelength or another, towards other UAPs or towards a station present on
Earth, in the atmosphere, on the surface of the Earth, at the bottom of the
oceans or outside the atmosphere, in earth orbit, in lunar orbit or on its
surface, or even within the entire solar system, it could be very interesting,
even sensible to emit a multidirectional signal at 3 GHz, or other frequencies,
to see if we can get an answer!
12
o In an experiment of this nature all the research teams having experienced the
previous steps would automatically move on to a new phase of their research
programs, namely, the official contact attempt!
4.5 Partnerships between universities and amateur observatories
The development of a very close partnership between the various research teams
involved in the university scientific study, and very well equipped amateur
observatories (optical, radio, multi-sensors...).
Objective of such a partnership:
▪ An extended instrumental observation time 24 hours a day.
▪ A greater chance to collect scientifically exploitable data in a shorter
time.
▪ A controlled, very low cost of use and operation.
▪ A very strong motivation from the community of amateur
astronomers to join and to give their time and materials to a project at
the international university level on a new and promising subject of
study.
Benefit of such a partnership:
▪ An opening of the universities and research groups to the outside
world (bringing the university and civil societies closer together) while
controlling all the steps of the partnership. Moreover, a very strong
reduction of costs, associated with a very strong reduction of the
theoretical time to be able to make an exceptional discovery, a
discovery concerning the scientific confirmation of the physical
existence of UAPs in our world and their potential natures.
▪ This pattern is also valid for the search for a potential presence of
ETCs within the solar system. In this instance, out of data collection on
the subject ECTs, such a partnership could accelerate the discovery
within the solar system of new still as yet unknown astronomical
objects or phenomena.
13
4.6 Developing an AI program as a performance vector
This program would be dedicated to a global Internet watch allowing us to launch
alerts on real-time observations of UAPs on the surface of the Earth. The statistical
study of the observations could allow us to discover strategic occurrences and inform
us about some of their behaviors, or even anticipate them!
But this AI could also be used to discriminate, in photo and video data collections,
objects of a known nature from those that raise questions. This would save a lot of
time and therefore be more efficient.
4.7 Deployment of a small team of specialized investigators in the field
Investigators equipped with mobile recording and detection equipment: possibility of
recovering materials (metamaterials or others) linked to the UAPs and exploitable in
the laboratory.
This deployment would be done in parallel with the collection of statistical data linked
to the different instrumental experiments activated within the new optical, radar and
satellite observation means.
4.8 Use of cameras with very high recording speeds
On the basis of statistical data from the very numerous international testimonies from
civil and military pilots of the very high velocity, kinetic and aerodynamic capacity of
UAPs a new approach to data capture is needed. It would be interesting to develop an
instrumental experiment integrating high resolution multi-sensor cameras with very
high shutter speeds between 10,000 and 26,000 fps minimum. These cameras would
be part of the latest existing generations, or created specifically for the object of the
study.
Objective: to try to capture the movement of UAPs in the upper, lower and outer
atmospheric environments. The slow motion study of the collected data would allow
for the obtaining of strategic information on their capacities and possibly on their
nature. To date, there are no photos, film or spectra of a very high resolution available
for scientific study.
One of the objectives of the scientific study of the UAPs and ETCs is to obtain
exploitable imagery at very high resolution in various wavelengths.
14
4.9 Satellite detection with their specialized multi-sensors
A promising avenue of research concerning the detection and identification of UAPs
would be the search for unrecorded geomagnetic disturbances on the surface of
certain terrestrial regions such as on the surface of the oceans and Antarctica.
Why?
o Highly credible evidence has been reported to us by witnesses of the 2004-
2019 events regarding a possible correlation between terrestrial geomagnetic
disturbances and the presence of UAPs.
o In the context of the search for the energetic/electromagnetic signature of
UAPs in the Earth's atmosphere, and in order to obtain scientific data and
very high resolution images/films that can be used, it would be interesting to
search the surface of the oceans, and Antarctica, for possible unrecorded
geomagnetic disturbances. Disturbances that could potentially be attributed
to the presence of a very large energy source and possible ETC activities. This
energy source and/or ETC activity could either control or communicate with
UAPs that are driven by biological entities or are solely automated.
o This intense energy source, these electromagnetic or geomagnetic
disturbances, this control or this possible communication between sources
and UAPs should be detectable thanks to the multi-sensors currently on
board surface ships, aircraft or civil satellites.
The chain of research, data collection, analysis and proactive actions would be, for UAPs in
the Earth's atmosphere:
o A real-time monitoring of the internet and darknet by an AI, or an artificial
neural network dedicated to anything related to an event directly related to
the appearance of UAPs in our environment. The objective is to target the
statistical occurrences of their presence, thus the geographical points on
Earth likely to be "hot spots" of possible UAPs / ETCs activities.
o Installation of an AMS network and multi-sensor telescopes at certain
strategic locations on the planet.
o Use of the professional/amateur network for a wider range of searches,
detections and data collection.
o Use of the observation time of some surface ships, aircraft or civil satellites
equipped with sensors and detectors.
15
o Search of the surface of the oceans and the poles, in particular Antarctica, for
possible unknown geomagnetic disturbances, which could be attributed to
the presence of a very large energy source and possible ETCs activity.
o If discovered, then to observe and analyze these disturbances.
o Observe and analyze if a UAPs activity is not at the beginning or at the arrival
of one of these disturbances.
o Look for emission in the 3 GHz band, or others, by a multi-frequency scan
around a detected UAP.
o If a strong emission is detected in the 3 GHz band, or in another band, go to
the proactive phase of the study.
o This proactive phase being: a multidirectional transmission on the same
frequency detected, and to wait for a response!
The places on the surface of the Earth to be observed in priority from the data of the Nimitz
incident of November 14, 2004 and from the other declarations of 2004 to 2019 from the US
Navy:
o Catalina Strait (33°19'25.7 "N 118°07'42.2 "W)
o The northern tip of Guadalupe Island (29°15'43.5 "N 118°15'56.5 "W)
Based on the statistical data available to us regarding UAPs observations during the last 70
years:
o Vieque Island pit (18°06'26.6 "N 65°28'00.9 "W)
o Puerto Rico State Forest (18°17'16.7 "N 65°45'49.1 "W)
o Utah Ranch (40°15'29.4 "N 109°53'16.5 "W)
o Antarctic Range (83°25'59.5 "S 167°31'08.8")
For the research chain, data collection, analysis and proactive actions of a research team
regarding UAPs outside the Earth's atmosphere, an equivalent instrumental protocol could
be implemented in addition to the other experimental perspectives mentioned above.
16
5.0 Methods considered for the detection of ETCs activities
It is possible to consider another non-exhaustive list of research and experimentation
avenues which can be applied to the detection of ETCs.
5.1 Multi-sensor observation program directed towards the lunar surface.
Objective: to try to identify the origin and the nature[
xxi
] of the sources of the Luna
Transient Phenomenon [LTP] [
xxii
].
o LTP [
xxiii
] officially observed by professional astronomers since April 19th 1787
notably the British astronomer Sir William Herschel.
o Are these phenomena [
xxiv
] all natural or could they be for a part, even very
slight, of a potentially exogenous nature? A sign of a presence and activity of
Extraterrestrial Technological Civilizations (ETCs) within the solar system on
Earth’s doorstep?
5.2 Cooperation with NASA and the contributing countries
Objective: to install within the ISS multi-sensor instrumentation with very high
resolutions allowing 360° coverage around the ISS, and exploitable both day and
night.
5.3 Detection of probes or observation stations of ETC origin
These probes, or stations, can constitute a possible relay of communication with the
UAPs. It would be interesting to imagine an experiment which would allow the linking
of several multi-telescope observatories all equipped with very high resolution multi-
sensors on the same mount, in turn connected to a network of multichannel radio
telescopes in order to scan the sky for optical and radio signals not related to human
technological, scientific or military activity.
17
5.4 An observation of high polar orbits, from 1,700 km (1,056 miles)
This would be a new avenue to explore because it is an orbit not used by the
conventional terrestrial sectors. This orbit could be of particular interest for possible
ETC activities in the framework of a global observation program of human civilization,
observation and study of humans by dedicated probes or stations assisted in parallel
by UAPs in the upper and lower atmosphere for more precise observation programs.
o A precise multi-sensor scan at very high resolution from low orbit (200 to
1,700 km / 125 to 1,056 miles), would also be an avenue to consider in order
to try to detect potential ETC activity very close to the Earth's surface.
o The use or development of these very high resolution detectors would be
exploited in a number of parallel experiments, thus optimizing research in
other areas of study and controlling costs.
5.5 Access to the ESA/NASA SOHO mission
Objective: to have access to the LASCO (Large Angle and Spectrometric Coronagraph)
at the SOHO (Solar and Heliospheric Observatory) [
xxv
] for an in-depth study of the
space around the Sun. Indeed, what could be more "natural" for some UAPs entering
the solar system than to hide in the light of our star!
o A close collaboration could be very beneficial for all the research structures.
For example, to develop in cooperation optimized computer applications
oriented towards, and for, the permanent monitoring of the potential
presence and study of UPAs and ETCs around the Sun.
o Applications which would in parallel allow potentially new discoveries of
astronomical objects or phenomena within our solar system.
5.6 To have access to the Ligo Interferometer.
To consider a rapprochement between a team of university researchers having an
official open project on the detection and the analysis of the potential presence of
ETCs artefacts within the solar system and the research team of the Ligo
Interferometer[
xxvi
].
18
This collaboration would allow the development of a unique theoretical and
instrumental experiment with the objective of searching and detecting possible
gravitational waves in the solar system. Gravitational waves associated with the
deformation of space-time under the effect of a very important invisible, stealthy,
unknown non-astronomical mass, therefore potentially exogenous.
The theoretical and instrumental development of a brand new telescope dedicated
to this research axis would allow the teams to advance of new possibilities of
gravitational astronomy with potential as yet unimagined discoveries!
5.7 Program of detection of objects of type "Oumuamua"
As explained by Professor Avi Loeb[
xxvii
] it is important to develop a research program
consisting of new telescopes and new sensors in order to perform a systematic scan
of the solar system to try to detect other interstellar objects of the "Oumuamua"
type[
xxviii
].
Even if Oumuamua may not be in the end an active or non-active ETCs artefact it
does not mean that we could not detect them through a dedicated research
program, if they of course exist and are potentially present within our solar system.
o Such a program of research of interstellar objects potentially present within
the solar system, if it did not succeed in its first objectives, would perhaps
allow for other discoveries of totally new objects or astronomical phenomena,
allowing us a better understanding of our solar and interstellar environment.
5.8 Search for as yet unknown sounds within the solar system
These sounds could be associated with a mass, an object invisible to our standard
sensors, but which could betray the presence of an ETC’s artefact in stealth mode.
5.9 Search for electromagnetic disturbances in the solar system
Imagine an experiment that would have as its objective the search and detection in
the solar system environment of electromagnetic disturbances that could be
associated with an uncharted invisible mass.
19
ETC activity could make itself stealthy, invisible in different ways:
o Optical
o Acoustic
o Radio frequency waves
To develop an instrumental experiment in these three main areas could bring to light
the "invisible" and in parallel teach us a lot about the environment of our solar
system.
6.0 Perspectives
The aspects of the world that can be transformed as a result of tangible discoveries,
understanding of the nature of UAPs, and/or the discovery of the presence on Earth, outside
the atmosphere, or within the solar system of active or non-active artefacts of ETC origin,
would be immense, such as:
- The discovery of new sources of energy, clean in comparison to current fossil or
nuclear energies, energies potentially inexpensive and unlimited in time, allowing the
energy independence of all peoples and countries of this world, especially the
poorest countries.
- The discovery and application of new forms of physics, biology and medicine that
can be directly involved in the fields of health in order to fight against the horrible
ailments that we know on this planet.
- The discovery of new properties of electromagnetic energy.
- A better approach and understanding of the properties of antigravity.
- The discovery of new properties in materials.
- The approach of new means of displacement in and out of the atmosphere, even in
the solar system and at the stellar level.
- The discovery of new optical and physical properties of matter.
- The substantial improvement of the independence of the poorest countries in the
fields of food and access to drinking water.
- A more efficient fight against endemic pollution, against the greenhouse effect and
global warming.
- A considerable evolution in the body of knowledge in general disciplines.
20
- A great opportunity to extend our relational field! Since the origin of life on Earth,
from the simplest to the most complex organisms, have without exception all used
their energies with the ultimate goal of communicating, exchanging, learning and
adapting, not only to live and survive, but also to move towards other stages of their
evolution.
- A concrete possibility to see and think far beyond our borders thus allowing
humanity to prepare for a future that can, in the medium and long terms (taking into
account the life span of our star), only be envisaged in the exploration of other
planets, other solar systems and other galaxies outside of ours.
- An exceptional possibility to see our humanity walking hand in hand with one or
several other species, extraterrestrial biological entities totally unknown to this day,
in order to go forwards together towards another step in the evolution of living.
- And many other perspectives not yet envisaged to this day...
Conclusion
The choice of research projects, their theoretical and instrumental orientations and their
relevance, to be able to collect in a reasonable time exploitable data from a strictly scientific
point of view are strategic!
Cost control, respect of public and private funds must always be kept in mind, they must also
be a winning priority for any fundamental and applied research project wishing to go
towards the study of UAPs and ETCs.
This includes both the academic and scientific dimension with the objective of publishing
data and advances in international peer-reviewed journals as well as the human and
civilizational dimension of all research projects on UAPs and ETCs.
Indeed, the deep objectives of research concerning the subject must be turned towards
novelty, discovery and a hand stretched out towards the other, the exogenous and
humanity, thus towards life in all its forms, and this in order to benefit the whole of human
civilization without exception, and not for the benefit of the few!
The motivation of the research teams will have to truly be great considering the incalculable
civilizational stakes, in all domains, that a potential academic discovery of the tangible
existence of UAPS and understanding of their nature, as well as the potential physical real
discovery of active and/or non-active ETCs artefacts, would bring to our world. Not to
mention a whole new level of civilizational paradigm shift following the first official contact
with an ETC, contact that could be triggered thanks to all the proactive scientific projects
around the world on the subject.
This is why it is necessary to push as far as possible the reflections, the thoughts and the
research avenues in order to be able to discover the impossible in the field of the
possibilities which are offered to us in the scientific study of this file.
21
It is for this reason that all the experiments, theoretical or instrumental, whatever their
orientations and objectives in the search for the understanding of the nature of UPAs or in
the search for the presence of ETCs in the solar system, can only end in setting up the
ultimate stage of all this process, namely, the contact phase!
This attempt to make contact must be thought through and initiated. It is an ultimate
approach which must be done in parallel with the search and the detection of UAPs and
ETCs.
Today we have the opportunity to take up one of the greatest scientific challenges of our
time. The discoveries resulting from this formidable scientific, technical and human
adventure could overnight profoundly, definitively and positively transform the life of the
whole of Humanity on Earth, and of living beings in all their forms.
University projects of international scope such as the Galileo Project seem to be a first step
of the fundamental element that could make a difference and bring not only this type of
project to fruition, but also project the whole of humanity towards a new path of its destiny.
So, should we all go together against the current common thought and launch everywhere in
the world multi-disciplinary university research initiatives on the subject and UAPs and ETCs
file?
The answer is obviously: Yes!
Wasn't it Lasorda Tommy (1927-2002), who claimed loud and clear that
"The difference between the impossible and the possible lies in the determination."
Serge Tinland,
Seillans – France
22
Acknowledgements
For its proofreading, suggestions, debates, exchanges and corrections, I would like to thank:
Ms. Stéphanie Martin
Professional English translator and interpreter.
Mr. Ivan Brovelli
PhD in Contemporary History, associate researcher and professor of history-
geography.
Olivier
Phd in Bioinformatics.
All my family and friends who for all these decades have given me unfailing support
in all my dreams, intellectual adventures and fieldwork.
23
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