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The two body dynamics of an orbiting particle is usually governed by Newton's  laws of gravity and mechanics. Here the Kepler problem has been studied with the  addition of the Lorentz force of magnetism. For micrometeoroids and small man made  debris particles electromagnetic interactions may become important. The space  environment is filled with charged particles, electrons and ions, that may be deposited on  a 1 - 100 microns sized particle. The orbits of such charged particles have been  modeled in earth orbit, with the dipole magnetic field superposed on the gravity field.  An initial study of this problem has been conducted. Figures 1 illustrates a 600  second time frame of particles in a 300 kilometer altitude Earth orbit with a 5.7'  inclination. The solid line is the pure Kepler problem. The dashed lines are the paths  taken by various sized particles with a single positive charge of 1.6x10-'~ coulombs.  The additional energy required to deflect these particles from a Kepler orbit  comes from the deposition of charge at the initial stage in the calculation. From there  the energy of the particle is conserved since both the gravitational and magnetic forces  are conservative, i.e. $F d r = 0. 

micronassociates.info — Micron Associates: Smartphone Payment is on the Go! LIFESTYLE by micronassoc According to Pew Research survey released on Tuesday in Micron Associates, the use of handheld devices such as smart phones or tablets that serve as a digital “wallets” will be usually in not as much of a decade, seriously replacing cash and credit cards. In the statistics, sixty-five percent has the same opinion that handheld … Continue reading » Tags: Micron Associates: Smartphone Payment is on the Go!Leave comment FEB 08 2012 Cloud Trends: The Third Revolution Marches On LIFESTYLE, SOCIAL MEDIA by micronass

The two body dynamics of an orbiting particle is usually governed by Newton's  laws of gravity and mechanics. Here the Kepler problem has been studied with the  addition of the Lorentz force of magnetism. For micrometeoroids and small man made  debris particles electromagnetic interactions may become important. The space  environment is filled with charged particles, electrons and ions, that may be deposited on  a 1 - 100 microns sized particle. The orbits of such charged particles have been  modeled in earth orbit, with the dipole magnetic field superposed on the gravity field.  An initial study of this problem has been conducted. Figures 1 illustrates a 600  second time frame of particles in a 300 kilometer altitude Earth orbit with a 5.7'  inclination. The solid line is the pure Kepler problem. The dashed lines are the paths  taken by various sized particles with a single positive charge of 1.6x10-'~ coulombs.  The additional energy required to deflect these particles from a Kepler orbit  comes from the deposition of charge at the initial stage in the calculation. From there  the energy of the particle is conserved since both the gravitational and magnetic forces  are conservative, i.e. $F d r = 0. 

micronassociates.info — Micron Associates: Smartphone Payment is on the Go! LIFESTYLE by micronassoc According to Pew Research survey released on Tuesday in Micron Associates, the use of handheld devices such as smart phones or tablets that serve as a digital “wallets” will be usually in not as much of a decade, seriously replacing cash and credit cards. In the statistics, sixty-five percent has the same opinion that handheld … Continue reading » Tags: Micron Associates: Smartphone Payment is on the Go!Leave comment FEB 08 2012 Cloud Trends: The Third Revolution Marches On LIFESTYLE, SOCIAL MEDIA by micronass

http://www.zimbio.com/Micron+Associates+Advertising/articles/_oPFo9pDNko/Micron+Associates+LivejournalGRAVITO+MAGNETIC

The two body dynamics of an orbiting particle is usually governed by Newton's 

laws of gravity and mechanics. Here the Kepler problem has been studied with the 

addition of the Lorentz force of magnetism. For micrometeoroids and small man made 

debris particles electromagnetic interactions may become important. The space 

environment is filled with charged particles, electrons and ions, that may be deposited on 

a 1 - 100 microns sized particle. The orbits of such charged particles have been 

modeled in earth orbit, with the dipole magnetic field superposed on the gravity field. 

An initial study of this problem has been conducted. Figures 1 illustrates a 600 

second time frame of particles in a 300 kilometer altitude Earth orbit with a 5.7' 

inclination. The solid line is the pure Kepler problem. The dashed lines are the paths 

taken by various sized particles with a single positive charge of 1.6x10-'~ coulombs. 

The additional energy required to deflect these particles from a Kepler orbit 

comes from the deposition of charge at the initial stage in the calculation. From there 

the energy of the particle is conserved since both the gravitational and magnetic forces 

are conservative, i.e. $F d r = 0. 

The orbit of 1 micron sized particles has been computed and the results a r e 

shown in figures 2 through 5. The results of this numerical exercise in magneto-orbital 

dynamics a r e rather unexpected, but appear physically correct when studied. The 

particle was set in a 2000km orbit with a 5.7' inclination. Figure 2 displays how the 

magnetic field torques the orbital plane. Figure 3 then shows how the orbit is flipped 

over and shoved toward the north pole. This is analogous to the spin orbit interaction in 

the quantum atom. He r e the magnetic moments of the Earth's magnetic field and the 

orbit a r e parallel. The flip in the orbit is a result of the system's requirement to reach a 

lower magnetic energy by antiorienting the magnetic moments. The energy lost by 

reorienting the magnetic moment goes into gravitational potential energy by shoving the 

orbit above the north pole. 

Since this model is classical, and the electromagnetic radiation emitted by the 

accelerating charge is negligible, events depart from the Bohr quantum analog above. 

The charged particle finds itself in a magnetic bottle near the north pole, figure 4. The 

spiralling charged particle is deflected upward by the converging magnetic field. The 

spiral then climbs upward only to be drawn back down by gravity. The spiral bounces up 

and down gradually reaching on average a lower altitude with each bounce. This 

ephemeris run went for 84000 iterations, with three seconds per iteration, before the 

particle crashed into the Earth. Figure 5 is a close up of the oscillating orbital spiral 

shortly before it crashes into the earth. 

This problem explores a hole in the current understanding of orbital mechanics of 

particles. Ions and electrons in the Earth environment are treated as obeying the laws of 

electromagnetism, and collectively according to plasma physics. 

http://digg.com/news/business/lifestyle_micron_associates_2012_trends

micronassociates.info — Micron Associates: Smartphone Payment is on the Go! LIFESTYLE by micronassoc According to Pew Research survey released on Tuesday in Micron Associates, the use of handheld devices such as smart phones or tablets that serve as a digital “wallets” will be usually in not as much of a decade, seriously replacing cash and credit cards. In the statistics, sixty-five percent has the same opinion that handheld … Continue reading » Tags: Micron Associates: Smartphone Payment is on the Go!Leave comment FEB 08 2012 Cloud Trends: The Third Revolution Marches On LIFESTYLE, SOCIAL MEDIA by micronass

Sofradir will demo what it considers to be the future industry standard for infrared (IR) detection in high performance systems, a prototype 10-micron pixel pitch MWIR, at SPIE DSS in Baltimore, April 23 – 27, stand 1711.

Trend towards smaller pixel pitch IR detectors means significant increases in identifying smaller objects at greater distances.

Châtenay-Malabry (near Paris), France, April 25, 2012 - Sofradir, the number one developer and manufacturer of a key class of infrared detectors for military, space and industrial applications, announces today that it will demonstrate a prototype of the first 10-micron pixel pitch infrared (IR) detector for tactical applications at SPIE DSS in Baltimore, April 23 – 27. The image quality of an infrared detector depends on its spatial resolution that is related to the size and number of pixels. This means the higher the number of pixels and the smaller the pixel size, the sharper the image.

Sofradir will demo what it considers to be the future industry standard for infrared (IR) detection in high performance systems, a prototype 10-micron pixel pitch MWIR, at SPIE DSS in Baltimore, April 23 – 27, stand 1711.

Trend towards smaller pixel pitch IR detectors means significant increases in identifying smaller objects at greater distances.

Châtenay-Malabry (near Paris), France, April 25, 2012 - Sofradir, the number one developer and manufacturer of a key class of infrared detectors for military, space and industrial applications, announces today that it will demonstrate a prototype of the first 10-micron pixel pitch infrared (IR) detector for tactical applications at SPIE DSS in Baltimore, April 23 – 27. The image quality of an infrared detector depends on its spatial resolution that is related to the size and number of pixels. This means the higher the number of pixels and the smaller the pixel size, the sharper the image. In regards to the 10-micron pixel pitch, the small pitch means that Sofradir can double the number of pixels on a standard size chip. With this significant increase in image resolution, fighter pilots and soldiers will be considerably more effective in distinguishing between small objects at long distances (up to ten km) during the day and night, and through fog and smoke. Targeted military applications of Sofradir’s 10-micron pixel pitch IR detector will include Infrared Search and Track Systems (IRST), targeting and reconnaissance pods, long-range surveillance and armored vehicles. “It is critical for the military to see first and see the right target, whatever the weather conditions. This is what the higher resolution, higher range 10-micron pixel pitch infrared detector helps provide,” said Philippe Bensussan, chairman and CEO at Sofradir. “Sofradir continues to build on its legacy of innovation. We were the first to introduce the 15-micron pixel pitch TV format IR detector, a compact high-resolution product that brought system integrators significant advantages in performance and footprint and has become an industry standard. We’re taking the lead once again by pushing the bar from 12-micron pixel pitch that exists today to 10-micron. Our customers can look forward to the ultimate performance in IR systems.”

The two body dynamics of an orbiting particle is usually governed by Newton’s laws of gravity and mechanics. Here the Kepler problem has been studied with the addition of the Lorentz force of magnetism. For micrometeoroids and small man made debris particles electromagnetic interactions may become important. The space environment is filled with charged particles, electrons and ions, that may be deposited on a 1 - 100 microns sized particle. The orbits of such charged particles have been modeled in earth orbit, with the dipole magnetic field superposed on the gravity field. An initial study of this problem has been conducted. Figures 1 illustrates a 600 second time frame of particles in a 300 kilometer altitude Earth orbit with a 5.7’ inclination. The solid line is the pure Kepler problem. The dashed lines are the paths taken by various sized particles with a single positive charge of 1.6x10-‘~ coulombs. The additional energy required to deflect these particles from a Kepler orbit comes from the deposition of charge at the initial stage in the calculation. From there the energy of the particle is conserved since both the gravitational and magnetic forces are conservative, i.e. $F d r = 0. The orbit of 1 micron sized particles has been computed and the results are shown in figures 2 through 5. The results of this numerical exercise in magneto-orbital dynamics a r e rather unexpected, but appear physically correct when studied. 

http://www.photonicsonline.com/doc.mvc/sofradir-shows-the-future-in-infrared-detection-for-military-and-space-applications-at-spie-dss-0001

Sofradir will demo what it considers to be the future industry standard for infrared (IR) detection in high performance systems, a prototype 10-micron pixel pitch MWIR, at SPIE DSS in Baltimore, April 23 – 27, stand 1711.

Trend towards smaller pixel pitch IR detectors means significant increases in identifying smaller objects at greater distances.

Châtenay-Malabry (near Paris), France, April 25, 2012 - Sofradir, the number one developer and manufacturer of a key class of infrared detectors for military, space and industrial applications, announces today that it will demonstrate a prototype of the first 10-micron pixel pitch infrared (IR) detector for tactical applications at SPIE DSS in Baltimore, April 23 – 27. The image quality of an infrared detector depends on its spatial resolution that is related to the size and number of pixels. This means the higher the number of pixels and the smaller the pixel size, the sharper the image. In regards to the 10-micron pixel pitch, the small pitch means that Sofradir can double the number of pixels on a standard size chip. With this significant increase in image resolution, fighter pilots and soldiers will be considerably more effective in distinguishing between small objects at long distances (up to ten km) during the day and night, and through fog and smoke. Targeted military applications of Sofradir’s 10-micron pixel pitch IR detector will include Infrared Search and Track Systems (IRST), targeting and reconnaissance pods, long-range surveillance and armored vehicles.

http://www.zimbio.com/Micron+Associates/articles/Ofsi4GXOstk/Micron+Associates+Blogspot+GRAVITO+MAGNETIC

The two body dynamics of an orbiting particle is usually governed by Newton’s laws of gravity and mechanics. Here the Kepler problem has been studied with the addition of the Lorentz force of magnetism. For micrometeoroids and small man made debris particles electromagnetic interactions may become important. The space environment is filled with charged particles, electrons and ions, that may be deposited on a 1 - 100 microns sized particle. The orbits of such charged particles have been modeled in earth orbit, with the dipole magnetic field superposed on the gravity field. An initial study of this problem has been conducted. Figures 1 illustrates a 600 second time frame of particles in a 300 kilometer altitude Earth orbit with a 5.7’ inclination. The solid line is the pure Kepler problem. The dashed lines are the paths taken by various sized particles with a single positive charge of 1.6x10-‘~ coulombs. The additional energy required to deflect these particles from a Kepler orbit comes from the deposition of charge at the initial stage in the calculation. From there the energy of the particle is conserved since both the gravitational and magnetic forces are conservative, i.e. $F d r = 0. The orbit of 1 micron sized particles has been computed and the results are shown in figures 2 through 5. The results of this numerical exercise in magneto-orbital dynamics a r e rather unexpected, but appear physically correct when studied. The particle was set in a 2000km orbit with a 5.7’ inclination. Figure 2 displays how the magnetic field torques the orbital plane. Figure 3 then shows how the orbit is flipped over and shoved toward the north pole. This is analogous to the spin orbit interaction in the quantum atom. He r e the magnetic moments of the Earth’s magnetic field and the orbit a r e parallel. The flip in the orbit is a result of the system’s requirement to reach a lower magnetic energy by antiorienting the magnetic moments. The energy lost by reorienting the magnetic moment goes into gravitational potential energy by shoving the orbit above the north pole. Since this model is classical, and the electromagnetic radiation emitted by the accelerating charge is negligible, events depart from the Bohr quantum analog above. The charged particle finds itself in a magnetic bottle near the north pole, figure 4. The spiralling charged particle is deflected upward by the converging magnetic field. The spiral then climbs upward only to be drawn back down by gravity. The spiral bounces up and down gradually reaching on average a lower altitude with each bounce. This ephemeris run went for 84000 iterations, with three seconds per iteration, before the particle crashed into the Earth. Figure 5 is a close up of the oscillating orbital spiral shortly before it crashes into the earth. This problem explores a hole in the current understanding of orbital mechanics of particles. Ions and electrons in the Earth environment are treated as obeying the laws of electromagnetism, and collectively according to plasma physics.