3 Supernovae Researchers receive the
Nobel Prize in Physics in 2011!
4 October 2011
| Source:
nobelprize.org
This year’s Nobel Prize for Physics has been awarded to US and Australian
pioneers of astrophysics for the discovery of the accelerating expansion of the
Universe through observations of distant supernovae.
Saul Perlmutter from the Lawrence Berkeley National Laboratory and University of
California, Berkeley, has been awarded half of this year’s prize for his work on
the Supernova Cosmology Project, with the other half awarded to Brian P. Schmidt
from the Australian National University and Adam G. Riess from the Johns Hopkins
University and Space Telescope Science Institute, Baltimore, for their work on
the High-z Supernova Search Team.
Link:
http://www.iop.org/news/11/oct/page_52364.html
Comment by
Hans Lehner, President of ISQP / ISQR Institute:
Singapore / Jona/SG (Switzerland), 5 October 2011
With the sensational and surprising physics Nobel Prize 2011
for 3 supernovae researchers the SUPERNOVAE ENERGY RESEARCH
of the Swiss Institute for Space Quantum Physics & Research ISQP / ISQR
received a further acceleration. The research area is now more relevant than
ever. This is even more important, because with the Discovery of the
Supernovae Energy on ISQP / ISQR institute a new Technology for
electricity production can be realized. Your Power Supplier of the future!
The three astrophysicists have measured
and detected the accelerated
expansion of the Universe, but they have not mentioned far more
important Findings and discoveries made at ISQP / ISQR Institute:
1. The large number of supernovae explosions, an average of 86,400 per
day
in the observable universe (Eddie Baron, NATURE 395, 1998).
2. This corresponds to an average of 1 (one) supernova explosion per
second.
3. That dark energy is generated
from supernovae explosions.
4. That the cosmic mechanical supernovae explosions pressure waves
represents the 5th basic physical force, discovered by the ISQP / ISQR Institute
on
January 6, 2005 .
5. That the supernovae explosions pressure waves produce both, the
accelerated
expansion of the universe, as well as the cosmic mechanical Gravitational
pressure
on all the galaxies, stars, suns, planets, and Earth and the Moon.
6. That we at the impact of the numerous supernovae explosions are pressed
against
the Earth.
7. That the old theory of gravitation of
"Mass attraction" is no longer tenable and the old ideas are in need of
revision.
8. That the dark matter in the universe is responsible as a transport medium
for
all cosmic mechanical and electromagnetic forces in the cosmos in all
directions.
9. It is necessary to consider how far Einstein's cosmological constant in
their effect
is equivalent to the differential impact of the average 86,400 supernovae
explosions
per day in the observable universe as a "previously hidden parameters in
physics".
It is important
to note that there is no "mass attraction" anymore.
The cosmic mechanical pressure waves of approximately 86,400 supernovae
explosions
per
day work in all directions of the cosmos:
- Pressure in peripheral direction of the cosmos = accelerated expansion
- Pressure towards the center of the cosmos
=
cosmic gravitational pressure
- Pressure in the direction of galaxies, stars, planets etc. =
cosmic gravitational pressure
(German: Anpressdruck).
10. Important Note: The cosmic mechanical pressure waves of supernovae
explosions
penetrate
all atomic structures in the cosmos, similar to high-frequency sound waves
in materials testing. However, they are weakened by the mass and density
of galaxies,
Stars, suns, planets, moons - and continue weakened further.
Gravitation on Earth e.g., and on the other planets and moons, is the
Result of a
pressure difference between the larger external cosmic pressure on the one hand,
and
the reduced internal back pressure from
the opposite side of the Earth, weakened
by
the mass and density of the Earth ( diameter 12,000 km).
Press / Media
4 October 2011
| Source:
nobelprize.org
This year’s Nobel Prize for Physics has been awarded to US and Australian
pioneers of astrophysics for the discovery of the accelerating expansion of the
Universe through observations of distant supernovae.
Link:
http://www.iop.org/news/11/oct/page_52364.html
SPIEGEL ONLINE 04/10/2011
Nobel Prize in Physics 2011 goes to three supernovae researchers
Three cosmologists get the physics Nobel Prize 2011. One half of the award goes
to the Americans Saul Perlmutter, the other half divided his compatriot Adam
Riess of the
and Australian Brian Schmidt.
The trio has proved that the universe is growing faster and faster.
Link:
http://www.spiegel.de/wissenschaft/mensch/0,1518,787407,00.html
NZZ Neue Zürcher Zeitung, page 1 + 24,
05/10/2011
Nobel Prize 2011 for astrophysicists
Physics Nobel Prize for the discovery of the accelerated expansion of the
universe
Groundbreaking knowledge for the expansion of the universe
On the track of dark energy
Physics Nobel Prize to three researchers of the mysterious expansion of the
universe
Link:
TAGES-ANZEIGER
Nobel Prize in physics for a discovery
too crazy
Three cosmologists have observed that the universe is expanding faster and
faster.
Comment by
Martin Läubli on page 36, 05/10/2011
Einstein Medal for two Nobel Prize winners
The Berne Einstein Society (Switzerland) had a good nose
"The Berne Albert Einstein Society has demonstrated a knack, as
This past May of 2011 they both physicists Saul Perlmutter and Adam Riess,
the Albert Einstein Medal awarded. Now, only a few months later, the two
Americans received the Nobel Prize. "ETH physics professor Hans-Rudolf Ott,
President of the Berne Einstein Society, does speak of luck, but in conversation
feels
one: There was also a clue.
The first award was in 1979 at the world-renowned British physicist
Stephen Hawking. Anyone reading the long list of winners has the impression
The crème de la crème of the physicist had been honored.
For ETH professor Hans-Rudolf Ott it is
not the case. He lacks even "a second Einstein."
The two new Nobel laureate had not reached the genius.
"They
did experiments, but
still missing
the head, which
made
Observations can
be interpreted theoretically,
"says Hans-Rudolf Ott.
Comment by
Hans Lehner, President of ISQP / ISQR Institute:
Thank you Prof. Hans-Rudolf Ott, that you have spoken plain text!
The American cosmologist Eddie Baron, in his publication
in NATURE 395, 1989, with an average of 1 (one) supernova explosion
per second in the observable universe has not discovered, that this is
a new cosmic mechanical primary-energy source , based on an average
of 86,400
Supernovae Explosions per day.
Literature Directory
http://www.rqm.ch/dunkle_materie_und_dunkle_energi.htm
[ 5 ] Baron, Eddie: Astrophysics: How big do stellar explosions get?
Nature 395, 635/636; 663-674 (1998)
We thought we knew how powerful supernova explosions could
be. We
also thought that supernova explosions and y-ray bursts
were unrelated.
One extraordinary supernova is making us re-examine these
ideas.
"A supernova occurs about once a second in the observable
Universe,
a y-ray burst about once a day".
[ 6 ] Von der Weiden, Silvia: Zu hell für eine Supernova. Ein Gammastrahlen-
Ausbruch entpuppt sich als "Hypernova". NZZ Neue Zürcher
Zeitung,
4.11.1998, S. 67 " Etwa jede Sekunde leuchtet im
beobachtbaren
Universum eine Supernova auf. Gammastrahlenausbrüche sind
dagegen
viel seltener, sie werden einmal pro Tag registriert ".
[ 7 ] Bloonr, J.S.: The unusual afterglow of the y-ray burst of 26 March 1998
Supernovae connection.
Nature 401, 453-456 (1999)
Cosmic y-ray bursts have now been firmly established as one
of the
most powerful phenomena in the Universe, releasing almost
the rest-mass
energy of a neutron star within the space of a few seconds.
[ 8 ] Von der Weiden, Silvia: Sind kollabierende Sterne der Auslöser von
Gammablitzen?, NZZ Neue Zürcher Zeitung, 6.10.1999, S. 71
" Supernova-Explosionen und Gammastrahlenausbrüche gehören
zu den heftigsten Ereignissen im Kosmos. Im beobachtbaren
Teil des
Universums explodiert etwa jede Sekunde ein massiver Stern.
Im Mittel ereignet sich einmal pro Tag ein
Gammastrahlenausbruch ".