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From left to right, this shows the East Carriage, the South Muon Magnet, and the Central Magnet of the Relativistic Heavy Ion Collider's PHENIX detector. The beam pipe that goes down the middle of the Central Magnet and the South Muon Magnet has been removed.
Members of Brookhaven's Nonproliferation and Homeland Security Department display a long range neutron detector system designed to detect and indicate the direction of a concealed neutron source.
The Solenoidal Tracker at RHIC (STAR) is a detector which specializes in tracking the thousands of particles produced by each ion collision at RHIC. Weighing 1,200 tons and as large as a house, STAR is a massive detector. It is used to search for signatures of the form of matter that RHIC was designed to create: the quark-gluon plasma. It is also used to investigate the behavior of matter at high energy densities by making measurements over a large area.
The Solenoidal Tracker at RHIC (STAR) is a detector which specializes in tracking the thousands of particles produced by each ion collision at RHIC. Weighing 1,200 tons and as large as a house, STAR is a massive detector. It is used to search for signatures of the form of matter that RHIC was designed to create: the quark-gluon plasma. It is also used to investigate the behavior of matter at high energy densities by making measurements over a large area.
The Solenoidal Tracker at RHIC (STAR) is a detector which specializes in tracking the thousands of particles produced by each ion collision at RHIC. Weighing 1,200 tons and as large as a house, STAR is a massive detector. It is used to search for signatures of the form of matter that RHIC was designed to create: the quark-gluon plasma. It is also used to investigate the behavior of matter at high energy densities by making measurements over a large area.
The Solenoidal Tracker at RHIC (STAR) is a detector which specializes in tracking the thousands of particles produced by each ion collision at RHIC. Weighing 1,200 tons and as large as a house, STAR is a massive detector. It is used to search for signatures of the form of matter that RHIC was designed to create: the quark-gluon plasma. It is also used to investigate the behavior of matter at high energy densities by making measurements over a large area.
The Solenoidal Tracker at RHIC (STAR) is a detector which specializes in tracking the thousands of particles produced by each ion collision at RHIC. Weighing 1,200 tons and as large as a house, STAR is a massive detector. It is used to search for signatures of the form of matter that RHIC was designed to create: the quark-gluon plasma. It is also used to investigate the behavior of matter at high energy densities by making measurements over a large area.
The Solenoidal Tracker at RHIC (STAR) is a detector which specializes in tracking the thousands of particles produced by each ion collision at RHIC. Weighing 1,200 tons and as large as a house, STAR is a massive detector. It is used to search for signatures of the form of matter that RHIC was designed to create: the quark-gluon plasma. It is also used to investigate the behavior of matter at high energy densities by making measurements over a large area.
The Solenoidal Tracker at RHIC (STAR) is a detector which specializes in tracking the thousands of particles produced by each ion collision at RHIC. Weighing 1,200 tons and as large as a house, STAR is a massive detector. It is used to search for signatures of the form of matter that RHIC was designed to create: the quark-gluon plasma. It is also used to investigate the behavior of matter at high energy densities by making measurements over a large area.
The PHENIX detector at Brookhaven National Laboratory's Relativistic Heavy Ion Collider (RHIC) records many different particles emerging from RHIC collisions, including photons, electrons, muons, and quark-containing particles called hadrons
Designing Radiation Detectors: A team of Brookhaven researchers works on a directional detection system for "fast" neutrons.
The Solenoidal Tracker at RHIC (STAR) is a detector which specializes in tracking the thousands of particles produced by each ion collision at RHIC. Weighing 1,200 tons and as large as a house, STAR is a massive detector. It is used to search for signatures of the form of matter that RHIC was designed to create: the quark-gluon plasma. It is also used to investigate the behavior of matter at high energy densities by making measurements over a large area.
Peter Vanier’s team of researchers from the Nonproliferation and National Security Department want to know the origin of the neutrons they encounter since they occur infrequently in the natural environment.
sPHENIX is an upgrade to the PHENIX experiment at the Lab’s Relativistic Heavy Ion Collider (RHIC), a DOE Office of Science user facility for nuclear physics research. The project will significantly enhance scientists’ ability to learn about quark-gluon plasma (QGP), an exotic form of nuclear matter created in heavy ion collisions. To that end, the hadronic calorimeter will measure the energy of hadrons, which are particles made of quarks and gluons.
Lie Detectors taldearen kontzertu argazkiak, Gazteszenako Ttan-ttakun festan...
Fotos de concierto del grupo Lie Detectors, en la fiesta Ttan-ttakun de Gazteszena...
The PHENIX detector at Brookhaven National Laboratory's Relativistic Heavy Ion Collider records many different particles emerging from RHIC collisions, including photons, electrons, muons, and quark-containing particles called hadrons.
Federally Licensed Medical Marijuana Patient Branded; without evidence, assumed baked and dangerous until proven sober.
Dean often shows up to writing class "in an over medicated state." (Lynne Van Luven, UVic)
Student [narc] Jenny Wooding "encountered Bruce in class and claims that he was far more impaired [on marijuana] than she was [on narcotics]."
"Mr. Dean’s submission that the Tribunal should consider the lack of material from the respondents establishing that he used marijuana or abused marijuana seems hollow."
[Asking to be considered innocent until proven guilty is a hollow request? For potheads, I guess.]
_____________ _____________ ___________
Article in the Martlet newspaper;
Student with marijuana licence barred from machinery
www.martlet.ca/student-with-marijuana-licence-barred-from...
The article was written by a rookie writer who accepted statements after the deadline and I was not given the chance to refute. UVic's claims about concessions they made and/or offered is an absolute distortion of the truth.
_____________ _____________ ___________
I was registered at UVic, working toward two degrees,
BA in Creative Non-Fiction (1 class left, to be finished this next term).
BFA in Visual Art (on hold because of this mess)
o I was registered in a Sculpting class, with a Shop component, to make a bird house mount.
A p/t UVic employee in the shop, Doug Smith, apparently also worked for a business that serviced one of my mobility aides. Through this he was aware of my federal medical marijuana license. He informed the Shop instructor, Daniel Wilkin, who pulled me from the class on this knowledge.
I lost a term at school; I’m stuck with the student loan debt for the wasted term and several thousand in lawyer fees, so far. I'm a 55 year old single father living on CPP Disability and a small WCB pension.
UVic’s own documentation admits that I had not been observed impaired,
"...the initial assessment was based on second hand information and that it was not made by visual assessment."
"...at the initial time of decision making the student [Bruce Dean] had not been observed officially. That Dan had made his decision based on the information Doug [Smith] had told him."
"...the University determined that there was no professional on campus who was qualified to judge dosage levels and the physical and psychological behavioral effects of marijuana in respect of the contemplated risks." (Uvic)
Dean often shows up to writing class "in an over medicated state." (Lynne Van Luven)
UVic’s attempts to prove I was impaired were insulting. My favorite was provided by an impaired student narc;
"...she [Jenny Wooding] was outside with a couple of students that were smoking weed (she was just present not partaking) [sure, sure, that’s what they all say] and compared her impairment [from narcotic pain killers] to theirs and found it to be about the same. She then encountered Bruce in class and claims that he was far more impaired than she was."
(this narc's info didn't surface until after UVic had made their assessment of my impairment)
She admits that she was impaired on narcotics yet she claims she is able to judge levels of impairment.
What did UVic do about the people Jenny Wooding reported were likely smoking marijuana illegally?
The case went through the Human Rights Tribunal system,
The Settlement Hearing failed when UVic refused to compensate me for the debt incurred.
The Human Rights Tribunal Adjudicator eventually ruled against me,
o The flawed decision was based on an issue that didn't exist. She claimed that because I failed to include a copy of my federal license, I was unable to prove my case (prima facia ?); that I was unable to prove that I was legally entitled to use marijuana as medication in the first place.
o The problem with this is of course was that everybody accepted as fact, except the adjudicator, that I was disabled and that I held a federal exemption allowing me to legally use marijuana.
The entire basis of the UVic reason for my expulsion was their discovery and confirmation that I had a medical prescription.
ACCOMMODATIONS Offered by UVic
o When assessing that UVic had offered me accommodations, the adjudicator ignored the delay of their offer (après removal from class) (I was kept out of class for a month), the limitations of my disability, and the financial loss I needlessly suffered because of UVic’s poor handling of my case.
All accommodations offered came AFTER the initial insults and prolonged exclusion from class, which greatly disrupted my education. My surgery had little to do with the deferral of my classes. I‘ve had 20 surgeries on my knees, so far, and never have I needed to defer a class.
All accommodations ignored the financial loss and physical limitations of my disability. The accommodation's expectations exceeded the limitations of my disability and my finances. I should not be stuck with the student loan expense for a term I was not allowed to complete, nor should I be expected to work at the detriment of my disability.
All accommodations, and the decision by the Human Rights Tribunal, operate under the assumption that I was impaired.
Because of the existence of my medical marijuana license and prescription, I am assumed impaired until proven sober.
Student with marijuana licence barred from machinery
martlet.ca/2013/08/student-with-marijuana-licence-barred-...
Sandia National Laboratories designed new radiation detection equipment for New START, or the New Strategic Arms Reduction Treaty. This new equipment detects neutron levels to confirm that objects are non-nuclear, consistent with the provisions of the treaty.
Learn more at share-ng.sandia.gov/news/resources/news_releases/treaty_e....
Photo by Randy Montoya.
The PHOBOS experiment at Brookhaven National Laboratory's Relativistic Heavy Ion Collider is based on the premise that interesting collisions are rare, but when they occur, new physics is readily identified. The PHOBOS detector is designed to examine and analyze a very large number of unselected gold ion collisions. For each collision, the detector gives a global picture of the consequences of the collision and detailed information about a small subset of the nuclear fragments ejected from the high energy-density region.
Working on the spectrometer detectors of the PHOBOS detector.
The PHOBOS experiment at Brookhaven National Laboratory's Relativistic Heavy Ion Collider is based on the premise that interesting collisions are rare, but when they occur, new physics is readily identified. The PHOBOS detector is designed to examine and analyze a very large number of unselected gold ion collisions. For each collision, the detector gives a global picture of the consequences of the collision and detailed information about a small subset of the nuclear fragments ejected from the high energy-density region.
The Solenoidal Tracker at RHIC (STAR) is a detector which specializes in tracking the thousands of particles produced by each ion collision at RHIC. Weighing 1,200 tons and as large as a house, STAR is a massive detector. It is used to search for signatures of the form of matter that RHIC was designed to create: the quark-gluon plasma. It is also used to investigate the behavior of matter at high energy densities by making measurements over a large area.
Working on the spectrometer detectors of the PHOBOS detector.
The PHOBOS experiment at Brookhaven National Laboratory's Relativistic Heavy Ion Collider is based on the premise that interesting collisions are rare, but when they occur, new physics is readily identified. The PHOBOS detector is designed to examine and analyze a very large number of unselected gold ion collisions. For each collision, the detector gives a global picture of the consequences of the collision and detailed information about a small subset of the nuclear fragments ejected from the high energy-density region.
Working on the paddle trigger counters of the PHOBOS detector. Beam pipe in the foreground.
The PHOBOS experiment at Brookhaven National Laboratory's Relativistic Heavy Ion Collider is based on the premise that interesting collisions are rare, but when they occur, new physics is readily identified. The PHOBOS detector is designed to examine and analyze a very large number of unselected gold ion collisions. For each collision, the detector gives a global picture of the consequences of the collision and detailed information about a small subset of the nuclear fragments ejected from the high energy-density region.
The PHOBOS experiment at Brookhaven National Laboratory's Relativistic Heavy Ion Collider is based on the premise that interesting collisions are rare, but when they occur, new physics is readily identified. The PHOBOS detector is designed to examine and analyze a very large number of unselected gold ion collisions. For each collision, the detector gives a global picture of the consequences of the collision and detailed information about a small subset of the nuclear fragments ejected from the high energy-density region.
Working on the paddle trigger counters of the PHOBOS detector.
The PHOBOS experiment at Brookhaven National Laboratory's Relativistic Heavy Ion Collider is based on the premise that interesting collisions are rare, but when they occur, new physics is readily identified. The PHOBOS detector is designed to examine and analyze a very large number of unselected gold ion collisions. For each collision, the detector gives a global picture of the consequences of the collision and detailed information about a small subset of the nuclear fragments ejected from the high energy-density region.
The Solenoidal Tracker at RHIC (STAR) is a detector which specializes in tracking the thousands of particles produced by each ion collision at RHIC. Weighing 1,200 tons and as large as a house, STAR is a massive detector. It is used to search for signatures of the form of matter that RHIC was designed to create: the quark-gluon plasma. It is also used to investigate the behavior of matter at high energy densities by making measurements over a large area.
The PHOBOS experiment at Brookhaven National Laboratory's Relativistic Heavy Ion Collider is based on the premise that interesting collisions are rare, but that when they occur, new physics is readily identified. The PHOBOS detector is designed to examine and analyze a very large number of unselected gold ion collisions. For each collision, the detector gives a global picture of the consequences of the collision and detailed information about a small subset of the nuclear fragments ejected from the high energy-density region.
In front of the blue magnet in the background is a silicon Ring Multiplicity Detector. A beam pipe extends into the foreground.
The Solenoidal Tracker at RHIC (STAR) is a detector which specializes in tracking the thousands of particles produced by each ion collision at RHIC. Weighing 1,200 tons and as large as a house, STAR is a massive detector. It is used to search for signatures of the form of matter that RHIC was designed to create: the quark-gluon plasma. It is also used to investigate the behavior of matter at high energy densities by making measurements over a large area.
The Solenoidal Tracker at RHIC (STAR) is a detector which specializes in tracking the thousands of particles produced by each ion collision at RHIC. Weighing 1,200 tons and as large as a house, STAR is a massive detector. It is used to search for signatures of the form of matter that RHIC was designed to create: the quark-gluon plasma. It is also used to investigate the behavior of matter at high energy densities by making measurements over a large area.
The Solenoidal Tracker at RHIC (STAR) is a detector which specializes in tracking the thousands of particles produced by each ion collision at RHIC. Weighing 1,200 tons and as large as a house, STAR is a massive detector. It is used to search for signatures of the form of matter that RHIC was designed to create: the quark-gluon plasma. It is also used to investigate the behavior of matter at high energy densities by making measurements over a large area.
The Solenoidal Tracker at RHIC (STAR) is a detector which specializes in tracking the thousands of particles produced by each ion collision at RHIC. Weighing 1,200 tons and as large as a house, STAR is a massive detector. It is used to search for signatures of the form of matter that RHIC was designed to create: the quark-gluon plasma. It is also used to investigate the behavior of matter at high energy densities by making measurements over a large area.
PHENIX is one of the four large detectors that helps physicists analyze the particle collisions at Brookhaven's Relativistic Heavy Ion Collider (RHIC). PHENIX weighs 4,000 tons and has a dozen detector subsystems. Three large steel magnets produce high magnetic fields to bend charged particles along curved paths.
Lawrence Livermore National Laboratory researchers have moved one step closer to being able to turn on and off the decay of a nuclear isomer. The protons and neutrons in a nucleus can be arranged in many ways. The arrangement with the lowest energy is called the ground state and all others are called excited states. (This is analogous to the ground and excited states of electrons in an atom except that nuclear excited states are typically thousands of times higher in energy.) Excited nuclear states eventually decay to the ground state via gamma emission or to another nucleus via particle emission. Most excited states are short-lived (e.g., billionth of a second). However, a few are long-lived (e.g., hours) and are called isomers. Turning the decay on and off is key to using isiomers as high-energy density storage systems such as batteries. [More information]
The Solenoidal Tracker at RHIC (STAR) is a detector which specializes in tracking the thousands of particles produced by each ion collision at RHIC. Weighing 1,200 tons and as large as a house, STAR is a massive detector. It is used to search for signatures of the form of matter that RHIC was designed to create: the quark-gluon plasma. It is also used to investigate the behavior of matter at high energy densities by making measurements over a large area.
The PHENIX detector at Brookhaven National Laboratory's Relativistic Heavy Ion Collider (RHIC) records many different particles emerging from RHIC collisions, including photons, electrons, muons, and quark-containing particles called hadrons.
The Solenoidal Tracker at RHIC (STAR) is a detector which specializes in tracking the thousands of particles produced by each ion collision at RHIC. Weighing 1,200 tons and as large as a house, STAR is a massive detector. It is used to search for signatures of the form of matter that RHIC was designed to create: the quark-gluon plasma. It is also used to investigate the behavior of matter at high energy densities by making measurements over a large area.
The Solenoidal Tracker at RHIC (STAR) is a detector which specializes in tracking the thousands of particles produced by each ion collision at RHIC. Weighing 1,200 tons and as large as a house, STAR is a massive detector. It is used to search for signatures of the form of matter that RHIC was designed to create: the quark-gluon plasma. It is also used to investigate the behavior of matter at high energy densities by making measurements over a large area.
The Extractor - UNDERWORLD
Lie detector (detector de mentiras)
Truth machine - Máquina de la verdad
El silencio de los inocentes
The Silence of the Lambs
Photoshop utilizando mis propios Brushes..
- Tubular Pawluk.abr -
ipawluk.deviantart.com/art/Tubular-Pawluk-203932574
Fotografías Iván Pawluk
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The PHENIX detector at Brookhaven National Laboratory's Relativistic Heavy Ion Collider (RHIC) records many different particles emerging from RHIC collisions, including photons, electrons, muons, and quark-containing particles called hadrons.
An Industrial Metal Detector mounted on a conveyor carrying aggregate in a USA quarry. The Metal Detector is protecting a crusher from tramp metal damage from digger teeth etc
#metaldetecting #quarry #aggregates #hillhead
Technical product details > www.bunting-redditch.com/product/tn77-metal-detector/
The PHENIX detector at Brookhaven National Laboratory's Relativistic Heavy Ion Collider (RHIC) records many different particles emerging from RHIC collisions, including photons, electrons, muons, and quark-containing particles called hadrons.