LE DISTANZE SIDERALI E IL LIMITE FISICO-TECNOLOGICO DEI TEMPI DI PERCORRENZA.
UN PROBLEMA, ANZI IL PROBLEMA SU CUI GLI SCIENZIATI SI ARROVELLANO DA SEMPRE.
LO STUDIO DEGLI IMPULSI ELETTROMAGNETICI SUPERLUMINALI, CIOE' LA LUCE CHE SUPERA IL LIMITE DEI COSSIDDETTI 300.000 CHILOMETRI AL SECONDO, E' VECCHIO DI ALMENO VENT'ANNI QUI IN ITALIA MA ANCHE PER IL RESTO DEL MONDO.
PARLO DI ESPERIMENTI DI LABORATORIO CHE INIZIALMENTE PREVEDEVANO DISTANZE MILLIMETRICHE E POI METRICHE, NON DI PIU'.
ALL'INIZIO SI DICEVA CHE NON ERA L'INFORMAZIONE AD AVER ACQUISITO SUPERLUMINALITA', MA UNA CARATTERISTICA FISICA DI UN PARTICOLARE SEGNALE ELETTROMAGNETICO CHIAMATA: "VELOCITA' DI GRUPPO".
SOSTANZIALMENTE E' PERDURATO PER MOLTO TEMPO IL CONCETTO CHE, COMUNQUE, L'INFORMAZIONE NON POTESSE ESSERE VEICOLATA OLTRE LA VELOCITA' DELLA LUCE. MA NEL 1994 DUE SCIENZIATI DELL'UNIVERSITA' DI COLONIA HEITMANN E NIMTZ (CFR. PHISIC LETTERS 1994), SOSTENNERO DI ESSERE RIUSCITI A GENERARE E TRASMETTERE, ATTRAVERSO UN PICCOLO TUNNEL DI 114 MILLIMETRI, UN SEGNALE SUPERLUMINALE CONTENENTE INFORMAZIONE, CON UNA VELOCITA' BEN 4,7 VOLTE MAGGIORE DI QUELLA DELLA LUCE. ADDIRITTURA INVECE DELLA SOLITA SEQUENZA DI IMPULSI PRIVA DI INFORMAZIONE, TRASMISERO LA SINFONIA N. 40 DI MOZART.
OGGI A VENT'ANNI ESATTI DA QUELL'ESPERIMENTO SIAMO ANCORA FERMI AL PALO?
IO CREDO DI NO, ED IL DOTT. LUNETTA CI SPIEGA ANCHE COME SI POSSONO UTILIZZARE AL MEGLIO LE ULTIME SCOPERTE IN QUESTO CAMPO.
MLR
Planet GJ667Cc can harbor life
Di: Dott. M. Lunetta
Abstract: By using data from the Kepler space telescope,
a team of scientists announced, at February 3, 2012, the discovery of a planet
22 light-years away. According to Steve Vogt, a co-discoverer at the University
of California, Santa Cruz, “we have the technology today to send a Droid cell
phone out the telltale signs of life, but it would take about 200 years, plus
another 20 to send the picture back”. At this point we must mention the
opportunity recently created by our theoretical conclusion thru manipulation of
electrodynamics.
Résumé: Moyennant l’ usage des donnés du telescope
spatial Kepler, une équipe de scientistes announça, à 3 de frévier 2012, la
découverte d’un planète à 22 années-lumière de distance. Selon Steve Vogt, un
co-découvreur de l’Université de Californie, Saint Croix « nous avons
aujourd’hui la technologie necessaire pour envoyer one télegramme Droid pour
révéler signes de vie, mais il faudra presque 200 années pour envoyer photo de
retour ». En ce point nous devons mentionner l’opportunité récemment créée par
notre conclusions théoriques, moyennant la manipulation de l’électrodynamique.
Key words :
planet GJ667Cc; triple star system; Kepler space telescope; Magellan II
telescope; habitable zone; superluminal carrier; photon acceleration,
Schrödinger equation; Poynting vector.
a)ateness@oi.com.br
I. INTRODUCTION
A. Some data of planet
GJ667Cc :
Mass mGJ ≈
4.5 mT ;
Orbital
period P ≈ 28.2 days;
Energy
absorbed by its star ≈ 90% of energy absorbed from Earth by Sun; but most of it
is in the infrared, so much more would be absorbed by the planet;
Nature of
surface: made of Earthlike rocks;
Planet can
support water in life-friendly liquid form;
Distance
from Earth: 22 light years ≈ 209 trillion Km;
Rich in
heavy chemical elements such as: Fe, C, Si;
Surface
temperatures: similar to Earth;
Planet is
orbiting within a star’s “habitable zone”;
Atmosphere
of planet is wet, but some uncertainties exist;
Planet
inside a triple-star system is rare enough by itself.
B. Discoverers:
Astronomers
Steven Vogt and Eugenio Rivera from the University of California Santa Cruz
(UCSC), led by Guillerme Anglada-Escudé and Paul Butler of the Carnegie
Institution for Science.
C. The researchers used data from the
European Southern Observatory and analyzed it with a new-data analysis method,
incorporating measures from the VM Keck Observatory’s High Resolution Echelle
Spectrograph and the new Carnegie Planet Finder Spectrograph at the Magellan II
Telescope.
II. DISCUSSION
A. Steven Vogt
said(1):
“What’s
most exciting of all about GJ667Cc is not just that it’s a super-Earth in its
star’s habitable zone, nor that it was found in a solar system when planets
have no right to be. It’s that this new world is impressively close to our own
Earth. The great majority of exoplanets known to date have been found by the
Kepler space probe but most of these are hundreds of light years away…
…GJ667Cc is
a mere 22 light years away-practically next door-and why the planet can’t be
seen directly yet, it’s not impossible that the next generation of ground or
space telescope could take readings of it atmosphere to look for telltale signs
of life…In the world of exoplanet science, the improbable things don’t seem to
stay improbable for very long”.
B. Anglada-Escudé
said(2):
“This
planet is the new best candidate to support liquid water and, perhaps, life as
we know it”. He explained: “With the advent of a new generation of instruments,
researchers will be able to survey many M dwarf stars for similar planets and
eventually look for spectroscopic signatures of life in one of these worlds”.
C. Chris Tinney(3)
co-author, from the University of New South Wales in Sydney said:
“It lies in
the region that we call the ‘habitable zone’-if it was a rocky planet that
looks just like the Earth, it would be just the right distance from its star to
have the right temperature to host liquid water. And the liquid water is seen
as essential pre-condition for the development of life”…
About
situation energetic exposed at the end of paragraph A., Tinney said:
“This means
that overall the planet absorb about the same amount of energy from the Sun: so
that would give the planet the right temperature, if it is a rocky surface and
a wet atmosphere, to host liquid water. If it’s rocky, it would look quite red,
probably look like a sunset”…About atmosphere he added: “We can’t work out
atmosphere. It could be rocky, and it would be somewhat larger than the Earth
if it had the same density, or it could be very small version of Neptune, then
it could be life as we don’t know it.”
III. CONCLUSION
The study
developed in Ref.4 was a contribution for paying attention to the more and more
urgent necessity of reaching technical means that allow, thru suitable devices,
a deeper knowledge of the universe.
In the case
of recently discovered planet GJ667Cc the possibility of having at disposal
devices of transmitting and receiving electromagnetic messages at superluminal
velocity must be considered of extreme importance in view of the strong
evidence that such a planet can harbor life.
REFERENCES:
1Steven
Vogt, Super-Earth GJ667Cc 22 Light Years away,Science, Space February 06,2012.
2Guillem
Anglada-Escudé, New planet may support liquid water,COSMOS magazine, February
08, 2012.
3Chris
Tinney, Looks like a sunst, Ibidem.
4M.
Lunetta, Manipulation of electrodynamics, submitted for publication in P.E.,
October 08, 2009.
Nessun commento:
Posta un commento