http://www.space.com/35962-coldest-...al-space-station.html?utm_source=notification
https://coldatomlab.jpl.nasa.gov/
CAL Video - http://www.space.com/24509-coldest-...eo.html#ooid=VuZGN5cDoQktSLnJNRqiYAkfNi8Oa2wq
The International Space Station (ISS) will soon host the coldest spot in the entire universe, if everything goes according to plan.
This August, NASA plans to launch to the ISS an experiment that will freeze atoms to only 1 billionth of a degree above absolute zero — more than 100 million times colder than the far reaches of deep space, agency officials said.
The instrument suite, which is about the size of an ice chest, is called the Cold Atom Laboratory (CAL). It consists of lasers, a vacuum chamber and an electromagnetic "knife" that together will slow down gas particles until they are almost motionless. (Remember that temperature is just a measurement of how fast atoms and molecules are moving.)
Is Quantum Freezing able to stop the gravitational influences of a Black Hole on objects that are pulled into the Event Horizon of a Black Hole?
Quantum Freezing is the ability to "freeze" atoms at the Quantum level or close to Quantum level to reduce gravitational influences between two or more atoms.
Based on the Theory of CAL a probe could be shrouded in a CAL field that would limit or cancel out the gravity of a black hole allowing the probe to pass through the Event Horizon to investigate what is on the other side.
How can the CAL Field be inverted to quantumly freeze the processes generating the immense gravitational pull of a black hole?
If CAL can be used to freeze atoms then CAL can be used to super atoms as well. Super heating atoms would allow atmosphere on planets such as Enceladus to be passed through the CAL chamber and then heated to habitable temperatures and then introduced into man made caves drilled into Enceladus to allow microbes to have a more pleasant environment in which to thrive.
https://coldatomlab.jpl.nasa.gov/
CAL Video - http://www.space.com/24509-coldest-...eo.html#ooid=VuZGN5cDoQktSLnJNRqiYAkfNi8Oa2wq
The International Space Station (ISS) will soon host the coldest spot in the entire universe, if everything goes according to plan.
This August, NASA plans to launch to the ISS an experiment that will freeze atoms to only 1 billionth of a degree above absolute zero — more than 100 million times colder than the far reaches of deep space, agency officials said.
The instrument suite, which is about the size of an ice chest, is called the Cold Atom Laboratory (CAL). It consists of lasers, a vacuum chamber and an electromagnetic "knife" that together will slow down gas particles until they are almost motionless. (Remember that temperature is just a measurement of how fast atoms and molecules are moving.)
Is Quantum Freezing able to stop the gravitational influences of a Black Hole on objects that are pulled into the Event Horizon of a Black Hole?
Quantum Freezing is the ability to "freeze" atoms at the Quantum level or close to Quantum level to reduce gravitational influences between two or more atoms.
Based on the Theory of CAL a probe could be shrouded in a CAL field that would limit or cancel out the gravity of a black hole allowing the probe to pass through the Event Horizon to investigate what is on the other side.
How can the CAL Field be inverted to quantumly freeze the processes generating the immense gravitational pull of a black hole?
If CAL can be used to freeze atoms then CAL can be used to super atoms as well. Super heating atoms would allow atmosphere on planets such as Enceladus to be passed through the CAL chamber and then heated to habitable temperatures and then introduced into man made caves drilled into Enceladus to allow microbes to have a more pleasant environment in which to thrive.
