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China can now potentially blind or destroy India’s satellites

I think the Indian got scared after some vocal threats coming from the Chinese members thus he felt he needed to show some brave face for India. Can't blame him for trying to portray India as an equal power to China, but seriously whom is he trying to kid here? Everybody can simply do some research and see the big differences in power. Why do these slumdogs bother to act strong when basically they are not?
 
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I think the Indian got scared after some vocal threats coming from the Chinese members thus he felt he needed to show some brave face for India. Can't blame him for trying to portray India as an equal power to China, but seriously whom is he trying to kid here? Everybody can simply do some research and see the big differences in power. Why do these slumdogs bother to act strong when basically they are not?
The slum dogs are coming to Canada by the train load. Pretty soon Canada is going to become brown. There's already a city nickname Bramadesh lol
 
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That's the best you can come with? I'm not brag anything but state the fact, all these India vulnerability can be perform in Tibet without having to cross one inch of Indian soil and it's legal and legitimate acts:

What India will do if China dispatch S-400 and open radar to monitor Indian government jets , fighters, civilian plane and lock on its as far as New Delhi?:D we did that on our soil, you can do nothing to us as you guys dispatch Brahmos at Indian border to target us also.

What India will do if we move DF-21D to Tibet so we can target anytime Indian carrier battle group or any warship in case of hostility as you guy move Agni missile near our border? you can't prevent us to do what we want on our soil.

What India will do if we divert water to Xinjiang, we again do what we want on our soil, remember we don't have any water treaty with India, we own you nothing. And what happen if we don't let Hindu pilgrims to come worship their Lord Shiva? again we do thing on our soil, we're sovereign nation.


You didn't stop breast thumping.. do you? Lolz.. grow up. Stop show off.. go back to leaked pics thread..
 
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Total
pile-of-poo1.png
hole false flag!:hitwall::hitwall::hitwall::hitwall::hitwall::hitwall:




As already disclosed by the media, China is known to have operated at least 3 ASAT laser stations, in Anhui, Sichuan and Xinjiang.
No need to build another one barely 125 km from the Line of Actual Control at Ngari which would not give China any additional capability to identify all Indian spy satellites!

w020130723291509035315-jpg.458632

▲ Space imagery of Tianshan ASAT laser station. 中国天山部署战略反卫星激光武器


But this heinous smear campaign by the enemy only shows how desperate and jealous India is, unable to catch up with an ever successful Chinese high tech space development.
The bare truth is that the bigger the lie the more it will be believed by low IQs. As a matter of fact the falsely alleged "advanced satellite centre" is only a civilian astronomical observatory, build in cooperation with research organizations from Japan and the United States, and even possibly south Korea.
China's largest optical telescope, the 12-meter telescope, is expected to be built at the site. The project is included in China's large-scale sci-tech infrastructure plan for 2016 to 2020,
Moreover, China will launch a project for the high-precision detection of cosmic rays above the 50 TeV energy region. Scientists from the University of Tokyo have pledged equipment worth tens of millions of yuan for the project.
In addition, scientists are also building at Ngari the world's highest station to observe primary gravitational waves, a joint China-U.S.Stanford University project, and launched in late 2016.
Ngari is one of just four places in the world regarded as the best sites for primary gravitational wave detection, alongside Antarctica, Chile's Atacama Desert and Greenland.

China Exclusive: China builds world-class astronomical base in Tibet

2017-09-21 13

BEIJING, Sept. 21 (Xinhua) -- With its thin air and clear sky, Ngari Prefecture is an ideal place for astronomers to gaze into the remote universe.

Chinese scientists are building a world-class observatory base at an altitude above 5,000 meters at Ngari, in the west of China's Tibet Autonomous Region.

They have launched a project to detect primary gravitational waves there. They also plan to conduct high-precision detection of cosmic rays and build China's largest optical telescope.

Xue Suijian, deputy director of the National Astronomical Observatories of China (NAOC), says astronomical observation requires clarity, transparency, tranquility and aridity of the atmosphere. A suitable site for multiple wave-length observation is a rare resource.

It's widely believed that the world's best astronomical observatories are located on Mauna Kea mountain, on Hawaii's Big Island, and in the desert in northern Chile. These two places, in the northern and southern hemispheres respectively, are home to more than 90 percent of the world's large astronomical facilities.

However, due to objections from native Hawaiians, the world's largest optical telescope, the Thirty Meter Telescope (TMT), might be the last astronomical project to be built on Mauna Kea, says Xue.

Scientists are eager to find another good observatory base in the northern hemisphere.

Xue said NAOC began looking for a suitable site in western China in 2004, focusing on a ridge ranging from 5,000 meters to 6,200 meters above sea level in Ngari.

Now the Ngari Observatory is starting to take shape. Chinese universities and institutes, as well as research organizations from Japan and the United States, are joining NAOC with plans for projects there.

China's largest optical telescope, the 12-meter telescope, is expected to be built at the site. The project is included in China's large-scale sci-tech infrastructure plan for 2016 to 2020, says Xue.

Xue says NAOC will also cooperate with Tibet University and Ngari prefecture government to launch a project for the high-precision detection of cosmic rays above the 50 TeV energy region. Scientists from the University of Tokyo have pledged equipment worth tens of millions of yuan for the project.

Scientists are also building at Ngari the world's highest station to observe primary gravitational waves, dubbed "the first cry of the cosmos after the Big Bang."

Zhang Xinmin, lead scientist of the project with the Institute of High Energy Physics under the Chinese Academy of Sciences (CAS), says detection of primary gravitational waves is of great significance to studying the origin and evolution of the universe.

Although the first detection of gravitational waves was announced on February 2016, no primary gravitational waves have been detected so far. But they remain a hot topic in international academic circles.

According to cosmic inflation theory, the universe expanded rapidly in a very short period after the Big Bang, and caused ripples in space-time. The primary gravitational waves generated by cosmic inflation should have left traces in the cosmic microwave background (CMB).

In May 2014, Zhang Xinmin proposed a CMB detection experiment in Ngari, arguing that as primary gravitational waves were very weak, the detection site should have thin air, and the drier the better.

Ngari is one of just four places in the world regarded as the best sites for primary gravitational wave detection, alongside Antarctica, Chile's Atacama Desert and Greenland.

Zhang had considered China's Kunlun Station in Antarctica to conduct the experiment, but the infrastructure there was insufficient.

The primary gravitational wave detection experiment, a joint China-U.S.project, was launched in late 2016.

The first stage of the project will see a telescope built at a site 5,250 meters above sea level to realize the first measurement of primary gravitational waves in the northern hemisphere. The telescope is expected to be installed at the end of 2019 and operational in 2020.

Scientists then plan to build a more sensitive telescope at a higher site to realize more accurate measurement of primary gravitational waves.

Scientists at the Institute of High Energy Physics of CAS and Stanford University are cooperating to design the telescope, which will be 2.7 times more powerful than the BICEP 3 telescope in Antarctica, says Zhang.

Xue says China should utilize the unique geographical advantage of the "Roof of the World." The series of projects, scheduled to run until 2030, could help promote Tibet's social and economic development.


1121704083_15059915811601n-jpg.458679

▲ China builds world-class astronomical base in Tibet

1121704083_15059915813621n-jpg.458680

▲ China builds world-class astronomical base in Tibet

1121704083_15059915813781n-jpg.458681

▲ China builds world-class astronomical base in Tibet

1121704083_15059915813941n-jpg.458682

▲ China builds world-class astronomical base in Tibet

1121704083_15059915814091n-jpg.458683

▲ China builds world-class astronomical base in Tibet

1121704083_15059915814251n-jpg.458684

▲ China builds world-class astronomical base in Tibet


1121704083_15059915814401n-jpg.458685

▲ China builds world-class astronomical base in Tibet. 星空下的阿里天文台。


1121704083_15059915814561n-jpg.458686

▲ China builds world-class astronomical base in Tibet. 世界屋脊上的阿里天文台外景。


1121704083_15059915814721n-jpg.458687

▲ China builds world-class astronomical base in Tibet. 星空下的阿里天文台。


http://www.xinhuanet.com/politics/2017-09/21/c_1121704083.htm

http://www.xinhuanet.com/english/2017-09/21/c_136626457.htm
 

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pile-of-poo1.png
hole false flag!:hitwall::hitwall::hitwall::hitwall::hitwall::hitwall:




As already disclosed by the media, China is known to have operated at least 3 ASAT laser stations, in Anhui, Sichuan and Xinjiang.
No need to build another one barely 125 km from the Line of Actual Control at Ngari which would not give China any additional capability to identify all Indian spy satellites!

w020130723291509035315-jpg.458632

▲ Space imagery of Tianshan ASAT laser station. 中国天山部署战略反卫星激光武器


But this heinous smear campaign by the enemy only shows how desperate and jealous India is, unable to catch up with an ever successful Chinese high tech space development.
The bare truth is that the bigger the lie the more it will be believed by low IQs. As a matter of fact the falsely alleged "advanced satellite centre" is only a civilian astronomical observatory, build in cooperation with research organizations from Japan and the United States, and even possibly south Korea.
China's largest optical telescope, the 12-meter telescope, is expected to be built at the site. The project is included in China's large-scale sci-tech infrastructure plan for 2016 to 2020,
Moreover, China will launch a project for the high-precision detection of cosmic rays above the 50 TeV energy region. Scientists from the University of Tokyo have pledged equipment worth tens of millions of yuan for the project.
In addition, scientists are also building at Ngari the world's highest station to observe primary gravitational waves, a joint China-U.S.Stanford University project, and launched in late 2016.
Ngari is one of just four places in the world regarded as the best sites for primary gravitational wave detection, alongside Antarctica, Chile's Atacama Desert and Greenland.

China Exclusive: China builds world-class astronomical base in Tibet

2017-09-21 13

BEIJING, Sept. 21 (Xinhua) -- With its thin air and clear sky, Ngari Prefecture is an ideal place for astronomers to gaze into the remote universe.

Chinese scientists are building a world-class observatory base at an altitude above 5,000 meters at Ngari, in the west of China's Tibet Autonomous Region.

They have launched a project to detect primary gravitational waves there. They also plan to conduct high-precision detection of cosmic rays and build China's largest optical telescope.

Xue Suijian, deputy director of the National Astronomical Observatories of China (NAOC), says astronomical observation requires clarity, transparency, tranquility and aridity of the atmosphere. A suitable site for multiple wave-length observation is a rare resource.

It's widely believed that the world's best astronomical observatories are located on Mauna Kea mountain, on Hawaii's Big Island, and in the desert in northern Chile. These two places, in the northern and southern hemispheres respectively, are home to more than 90 percent of the world's large astronomical facilities.

However, due to objections from native Hawaiians, the world's largest optical telescope, the Thirty Meter Telescope (TMT), might be the last astronomical project to be built on Mauna Kea, says Xue.

Scientists are eager to find another good observatory base in the northern hemisphere.

Xue said NAOC began looking for a suitable site in western China in 2004, focusing on a ridge ranging from 5,000 meters to 6,200 meters above sea level in Ngari.

Now the Ngari Observatory is starting to take shape. Chinese universities and institutes, as well as research organizations from Japan and the United States, are joining NAOC with plans for projects there.

China's largest optical telescope, the 12-meter telescope, is expected to be built at the site. The project is included in China's large-scale sci-tech infrastructure plan for 2016 to 2020, says Xue.

Xue says NAOC will also cooperate with Tibet University and Ngari prefecture government to launch a project for the high-precision detection of cosmic rays above the 50 TeV energy region. Scientists from the University of Tokyo have pledged equipment worth tens of millions of yuan for the project.

Scientists are also building at Ngari the world's highest station to observe primary gravitational waves, dubbed "the first cry of the cosmos after the Big Bang."

Zhang Xinmin, lead scientist of the project with the Institute of High Energy Physics under the Chinese Academy of Sciences (CAS), says detection of primary gravitational waves is of great significance to studying the origin and evolution of the universe.

Although the first detection of gravitational waves was announced on February 2016, no primary gravitational waves have been detected so far. But they remain a hot topic in international academic circles.

According to cosmic inflation theory, the universe expanded rapidly in a very short period after the Big Bang, and caused ripples in space-time. The primary gravitational waves generated by cosmic inflation should have left traces in the cosmic microwave background (CMB).

In May 2014, Zhang Xinmin proposed a CMB detection experiment in Ngari, arguing that as primary gravitational waves were very weak, the detection site should have thin air, and the drier the better.

Ngari is one of just four places in the world regarded as the best sites for primary gravitational wave detection, alongside Antarctica, Chile's Atacama Desert and Greenland.

Zhang had considered China's Kunlun Station in Antarctica to conduct the experiment, but the infrastructure there was insufficient.

The primary gravitational wave detection experiment, a joint China-U.S.project, was launched in late 2016.

The first stage of the project will see a telescope built at a site 5,250 meters above sea level to realize the first measurement of primary gravitational waves in the northern hemisphere. The telescope is expected to be installed at the end of 2019 and operational in 2020.

Scientists then plan to build a more sensitive telescope at a higher site to realize more accurate measurement of primary gravitational waves.

Scientists at the Institute of High Energy Physics of CAS and Stanford University are cooperating to design the telescope, which will be 2.7 times more powerful than the BICEP 3 telescope in Antarctica, says Zhang.

Xue says China should utilize the unique geographical advantage of the "Roof of the World." The series of projects, scheduled to run until 2030, could help promote Tibet's social and economic development.


1121704083_15059915811601n-jpg.458679

▲ China builds world-class astronomical base in Tibet

1121704083_15059915813621n-jpg.458680

▲ China builds world-class astronomical base in Tibet

1121704083_15059915813781n-jpg.458681

▲ China builds world-class astronomical base in Tibet

1121704083_15059915813941n-jpg.458682

▲ China builds world-class astronomical base in Tibet

1121704083_15059915814091n-jpg.458683

▲ China builds world-class astronomical base in Tibet

1121704083_15059915814251n-jpg.458684

▲ China builds world-class astronomical base in Tibet


1121704083_15059915814401n-jpg.458685

▲ China builds world-class astronomical base in Tibet. 星空下的阿里天文台。


1121704083_15059915814561n-jpg.458686

▲ China builds world-class astronomical base in Tibet. 世界屋脊上的阿里天文台外景。


1121704083_15059915814721n-jpg.458687

▲ China builds world-class astronomical base in Tibet. 星空下的阿里天文台。


http://www.xinhuanet.com/politics/2017-09/21/c_1121704083.htm

http://www.xinhuanet.com/english/2017-09/21/c_136626457.htm



Construction of gravitational wave telescopes in Tibet underway

March 13, 2018

China is under smooth progress towards the world's highest altitude gravitational wave telescopes in Tibet Autonomous Region to detect the faintest echoes resonating from the universe, a project insider disclosed.

The main part for the first stage of the "Ngari plan", which was launched by China in March 2017 to eyeball the Big Bang cosmic waves at Ngari, Tibet, is almost completed, Zhang Xinmin, chief scientist of the project said on the sidelines of the ongoing first session of the 13th National Committee of the Chinese People’s Political Consultative Conference (CPPCC).

The project will start operations in 2020 and observation results will arise in 2022, added Zhang, a senior researcher at the Institute of High Energy Physics in the Chinese Academy of Sciences (CAS).

At the first stage of the two-phased project, a telescope code-named Ngari No.1 would be constructed at 5,250 meters above sea level to enable the first measurement of primordial gravitational waves in the northern hemisphere, according to the scientist.

The first telescope is expected to be installed at the end of 2019 and operational in 2020, added Zhang, also a member of the 13th CPPCC National Committee.

The second stage, according to him, involves a series of telescopes, code-named Ngari No. 2, to be located at an altitude of about 6,000 meters, to realize more accurate measurement of the waves.

Chinese scientists are now working on design of the first telescope with a team of Stanford University, and they would cooperate more in the future, he said.

The primordial gravitational waves, different from gravitational waves produced by motions and evolution of the heavenly bodies, were generated by the first tremors of the Big Bang.

Detection of the primordial gravitational waves is of great significance to studying the origin and evolution of the universe, said Zhang.

Ngari is considered as one of the world's four best places for astronomers to gaze into the faint echoes from the earliest days of the universe given its thin air, clear skies and minimal human activity.

The other three spots to detect the tiny twists in cosmic light are Atacama Desert, Chile and Antarctica in the southern hemisphere, as well as Greenland in the northern hemisphere.

The Ngari observatory, once constructed, will be the first of its kind in the northern hemisphere for China to carry out experiments regarding detection of primordial gravitational waves.

By then, the Ngari observatory, alongside the existing South Pole Telescope and the facility in Chile’s Atacama Desert, will cover both the northern and southern hemispheres.

Both space exploration and ground-based research have been employed by China to gaze into the remote universe.

The telescope in Ngari and FAST, a 500-meter aperture spherical radio telescope in southwest China’s Guizhou province, dedicate to probing waves from ground-based research facilities, while the Taiji and Tianqin projects, proposed by CAS and Sun Yat-sen University respectively, focus on detection by launch of satellites.

foreign201803131027000353274509026-jpg.459187

▲ The Ngari Observatory


foreign201803131027000592914584468-jpg.459188

▲ The Ngari Observatory at night

http://en.people.cn/n3/2018/0313/c90000-9436318.html



:enjoy:
 
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With Hydraulic power and plenty of electricity in Tibet, China can eventually build cheaper Electromagnetic launch vehicle to deliver our Satellites into space, since the average high is 4 km, we will save a lot of energy to get into space.


 
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As already disclosed by the media, China is known to have operated at least 3 ASAT laser stations, in Anhui, Sichuan and Xinjiang.
No need to build another one barely 125 km from the Line of Actual Control at Ngari which would not give China any additional capability to identify all Indian spy satellites!

The final nail in the coffin, the PLA already possesses much better, a real game changer, a tool located in Qujing, that allows China to detect extremely small targets such as nano satellites and microscopic pieces of debris.
We already had a small sneak peek at its mind boggling efficiency on the occasion of the successful remote controlled reentry of the Tiangong-1 space station on 1st April 2018. And the good news is that China is currently expanding its array in a bid to dwarf the U.S. Air Force and U.S. Navy funded own HAARP!



China's High-powered Incoherent Scatter Radars (Read: HAARPs)


Could this new Chinese radar system really be used to play God with the weather?

China is building a system in the South China Sea that can knock out communications systems, but some scientists believe it could have more alarming uses such as causing natural disasters like hurricanes

Thursday, 07 June, 2018

China is building a powerful radar system in the South China Sea that critics say could knock out communication systems, manipulate the weatherand even cause natural disasters.

The system, which sounds like something out of science fiction, uses pulsed energy beams to study and manipulate electrically charged particles in the high atmosphere.

It has civilian and military applications and could challenge US dominance in both spheres.

The US military has already been working on similar technology, but it has proved controversial with critics warning that it could allow governments to play God by causing disasters such as hurricanes, typhoons and tsunami.

Most scientists have dismissed these warnings as alarmist, however, and questioned whether the technology is really capable of doing this.

But while the American programme – funded by the air force, navy and universities – faces an uncertain future due to budget cuts, China is ready to speed up its own work in this field.

The South China Morning Post has learned that Beijing is ready to start work building a powerful machine in Sanya, a resort on the island province of Hainan.

The device, known as a High-powered Incoherent Scatter Radar, would be capable of influencing the ebb and flow of subatomic particles as far away as Singapore, a distance of over 2,000km (1,200 miles).

This facility would be the most powerful radar in the South China Sea and – regardless of whether it can be used to generate extreme climate events – would have multiple military uses, including improving China’s submarine warfare capabilities and disrupting other countries’ communications networks by creating an atmospheric “black hole”.

A Chinese Academy of Sciences official who visited the site in March expressed satisfaction with the progress of the project, according to information on the academy’s website.

During his visit, Li Shushen, vice-president at the academy, urged scientists to use the facility to serve China’s “strategic needs” and pursue “frontier issues” in space.

The machine works by generating rapid pulses of electromagnetic energy and beams them into the ionosphere, a layer of the atmosphere that can reflect radio waves thanks to a high concentration of ions and electrons.

By analysing the radio waves bouncing back off the particles, researchers can precisely measure the disturbance in the ionosphere caused by cosmic activity such as the sun’s rays.

The data can also be used to correct the radar images collected by spy satellites to gather more information and focus more precisely on a specific target.

By fine-tuning the high-energy beam, scientists could also stimulate the lower ionosphere to generate low-frequency waves and send these back to Earth.

These waves can travel long distances through seawater and reach submarines in the deep ocean, which means the technology could be used to send instructions to the subs from the base without the need for them to approach the surface to receive them.

At present the US is still the leader in this field of science. It built a similar programme to study and manipulate the ionosphere in Gakona, Alaska about 10 years ago.

The main purpose of the High Frequency Active Auroral Research Programme, or HAARP, was to improve satellite performance and submarine communication, according to scientists funded by the US navy and air force.

But building such a device was technically challenging and the power consumed by the project resulted in mounting costs.

So far, only about 10 such instruments have been built, mostly by the US, former Soviet states and the European Union, in strategic coastal areas such as the Atlantic, Pacific and Arctic.

The largest devices can generate and beam extremely low-frequency waves over large areas. Because they have the power to penetrate water, the earth’s crust and the human skull, some observers have warned that the governments could use the technology to set off storms or earthquakes and even control the brain.

However, most mainstream scientists have dismissed such concerns as overtly conspiratorial, arguing that the technology has so far been used to study the weather in space and support certain military operations.

They also point out that however powerful the machines are, they do not at present have enough energy to manipulate weather on any sizeable scale or trigger natural disasters.

The Sanya High-powered Incoherent Scatter Radar would be the first such device in the South China Sea.

The technology allows physicists to use extremely powerful radio waves to stir up the ionosphere – a physical phenomenon called incoherent scattering

This allow researchers to measure the temperature, density and speed of subatomic particles over huge distances and allows them to observe and influence the ionosphere – something a conventional radar cannot do.

One such device has been operating in the southwestern Chinese province of Yunnan since 2012, according to research papers by mainland scientists. The device, located in Qujing, is being used to study the ionosphere and detect extremely small targets such as nano satellites and microscopic pieces of debris for military and civilian space projects.

A researcher working at the site of the new Hainan project in Tiandu town told the South China Morning Post: “The implementation plan has been approved by the central government. Construction should start before the end of this year.”

A key component of the instrument is a phased array radar panel about the size of a basketball court. The panel consists of individual modules that could be assembled and taken apart, so the facility could be moved from one location to another in a short period of time.

The power of its beam would equal several hundred megawatts, the same amount of energy that would power thousands of households in the US.

A senior Chinese radar expert at Xidian University in Xian, capital of northwestern Shaanxi province, who previously worked with the People’s Liberation Army Institute of Telecommunication Engineering, confirmed that the project would operate with two separate divisions, one for civilian research and the other for military operations.

Sanya is China’s main naval base and houses a fleet of nuclear submarines, but the researcher said there were concerns that the island’s power supplies may prove to be inadequate. Shortages have sometimes been reported on the island, which lacks large generating plants.

The technology was jointly developed by the Chinese Academy of Sciences, China Electronics Technology Group and Nanchang University, all with close ties to the military.

A smaller prototype has been collecting data over the past few years, according to scientists at the site.

Zhao Biqiang, a researcher with the Institute of Geology and Geophysics at the Chinese Academy of Sciences in Beijing and a senior scientist involved in the project, said details of the instrument would not be revealed to the public until two or three years later.

The Sanya programme was officially launched in 2015 with a kick-starting fund of nearly 100 million yuan (US$15.7 million) from the central government.
The goal was to develop and build the “world’s most advanced incoherent scatter radar”, according to information on the academy’s website.

Zhao declined to comment on the facility’s military applications.

“It is too early to talk about what the technology can do. There will be lots of technical challenges and engineering hurdles we may face and have to overcome,” he said.

“The main purpose of this programme is to study the ionosphere over the South China Sea. Currently there is no such device in this region. The data collected by our instrument will fill gaps in our knowledge.”

There were other similar facilities under construction in China with a power output “much larger than ours”, Zhao said.

The project was led by professor Wan Weixing, an award-winning researcher involved in many defence projects on the ionosphere.

In a research paper published in a domestic journal in 2014, Wan mentioned an experiment conducted by Chinese scientists to heat up a large area in the ionosphere with powerful radar waves.

Computer simulation suggested the technology could change the temperature and density of electrically charged particles over an area the size of a large city, according to the paper. Wan could not be reached for comment on the Sanya project.

The People’s Liberation Army has funded a large number of research works on ionosphere weapons. They included an airborne device to release a large amount of chemicals in the high atmosphere to create a communication “black hole” over enemy forces.

In this case the chemical will change the ionosphere to block radio waves. They could also be designed to allow certain signals, such as extremely low frequency waves generated by a satellite, to pass through the ionosphere and communicate with submarines.

There are more immediate safety concerns about the deployment of the powerful electromagnetic instrument in Hainan, a popular tourism destination known as China’s Hawaii.

Liu Wenlong, a professor of physics at the school of space and environment at Beihang University in Beijing said the energy beam of ground-based radar could hit passing planes and the area has high levels of air traffic.

Although he said he did not think it would be able to penetrate the plane’s multiple layers of protection and burn out its chips – because that would require more energy than existing technology could produce – it needed “careful investigation” to check that the man-made pulses will not affect the plane’s ability to communicate with air traffic control.

However, the Xidian University researcher said the facility was likely to have a separate radar to warn passing planes and a facility to shut down operations if planes accidentally came within range.


001de0c4-63ef-11e8-82ea-2acc56ad2bf7_972x_203913-jpg.485307

▲ High-powered Incoherent Scatter Radars across the world.

https://www.scmp.com/news/china/soc...-radar-system-really-be-used-play-god-weather

cool_thumb.gif
 
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-India Navy will be vulnerable to our DF-21D in Tibet, we can make India Navy-Less
-New Delhi will be vulnerable to our S-400 in Tibet, we can declare ADIZ over Indian's capital
-New Delhi will be vulnerable to our Rail gun in Tibet, Modi will not feel safe at home
-India is vulnerable if we decide to diver water from Tibet, we can turn India economy upside down
-India Sat will be vulnerable for our ASAT in Tibet...
If only pigs can fly!
1. Range of DF-21D? 1500 KM. DF-21D requires extensive terminal phase guidance, something you don't have in Indian ocean due to inadiquate satellite cover.
2. Max range of S-400? 420 KM. Too less to cover Delhi and will need you to deploy it near border and risk its destruction by Indian ground forces.
3. Rail Gun, Yeah right! You don't have one operational so forget it. Post a video first. Chinese lies.
4. You have no ASAT in Tibet, You observatory has no wheels and can be taken out easily by few ALCMs.

Oh, and since Chinese have a tradition of punching back, when are you showing up in Puget Sound? I told you last time that your Xi-Monkey should stop writing cheques his Taracotta army can't cash.

China's High-powered Incoherent Scatter Radars (Read: HAARPs)


Could this new Chinese radar system really be used to play God with the weather?
Yeah Yeah Yeah! And chinese also have a portable laser which can ignite fuel, sure! Heard that a lot and debunked a lot.

Chinese enthusiasts and their fantasies know no bounds.

I am still waiting for Xi-Monkey's subs in Puget Sound or even Vancouver Island? Hello? Not going to punch back?
 
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From now on, nowhere to hide, any Indian spacecraft as small as 5 centimeters can be tracked (and jammed)!

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Preliminary results of space debris observations using Qujing incoherent scattering radar

Jin Wang1,2,3, Liu Yongjun1,2, Sun Mingguo3, Wu Jian1,2
1. Kunming Station, Chinese Research Institute of Radiowave Propagation, Qujing 655333, China;
2. National Key Laboratory of Electromagnetic Environment, Qujing 655333, China;
3. National Astronomical Observatories, Chinese Academy of Sciences, Beijing 100012, China

Abstract:To contribute to the improvement of China's radar debris tracking capability and capacity, efforts have been made to make the newly built Qujing incoherent scattering radar capable of LEO debris surveillance, in addition to its standard space environment observations. Firstly, a brief introduction of the Qujing radar and its operational parameters were given, followed by the discussion of the debris tracking sensitivity. The modified radar system was operated on November 18, 2014, to experiment its debris tracking capability. The experiments show that the measured ranges agree well with external values, and this confirms the debris tracking feasibility of the Qujing radar. After the planned system upgrades, the Qujing radar is expected to track debris objects as small as 5 cm, and the tracking capability and capacity, including the natural celestial bodies, would be greatly enhanced through the networking with other radars.
Key words: space debris incoherent scattering radar radar parameter
http://irla.csoe.org.cn/CN/abstract/abstract2307.shtml


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▲ High-powered Incoherent Scatter Radars across the world, technical specification.

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▲ 子午工程由两条“台站链”组成,最南端的站点延伸到南极中山站。它可以监测地球表面20~30公里以上到几百公里的中高层大气、电离层和磁层,以及十几个地球半径以外的行星际空间环境中的地磁场、电场、中高层大气的风场、密度、温度和成分等相关参数。


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▲ 这部雷达是目前我国惟一的、全亚洲功能最强大的非相干散射雷达。它利用高空大气中的等离子体热起伏的微弱散射信号,来遥测高空大气的物理参数。The radome of Qujing ISR.


云南曲靖台非相干散射雷达电子浓度数据:
http://vsso.cssdc.ac.cn/dataSet/view?dsId=282


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If only pigs can fly!
1. Range of DF-21D? 1500 KM. DF-21D requires extensive terminal phase guidance, something you don't have in Indian ocean due to inadiquate satellite cover.
2. Max range of S-400? 420 KM. Too less to cover Delhi and will need you to deploy it near border and risk its destruction by Indian ground forces.
3. Rail Gun, Yeah right! You don't have one operational so forget it. Post a video first. Chinese lies.
4. You have no ASAT in Tibet, You observatory has no wheels and can be taken out easily by few ALCMs.

Oh, and since Chinese have a tradition of punching back, when are you showing up in Puget Sound? I told you last time that your Xi-Monkey should stop writing cheques his Taracotta army can't cash.


Yeah Yeah Yeah! And chinese also have a portable laser which can ignite fuel, sure! Heard that a lot and debunked a lot.

Chinese enthusiasts and their fantasies know no bounds.

I am still waiting for Xi-Monkey's subs in Puget Sound or even Vancouver Island? Hello? Not going to punch back?

We have the real time monitoring sat, we only need 15 min to actively monitor and guide DF-21D to sink any of your ship. And To destroy our S-400 near your border, you will have to answer to PLA artilleries first, as for the rail go, we have, you don't simple as that, you can imagine the destructive power of this gun once we aim at New
Delhi, we can virtually attack any of your government structure at a cost of a dime. And about our ASAT, we can virtually deny India from go into space that's why Nehru was crying when we got Tibet because India is totally at our mercy from every strategic issue including the water control.

If China was the punch bag then what about India for over 800 years since the Muslim Mughal empire dominated India, you guys are nothing by kick boxing bag of the millennium :lol:. But you don't have to wait for our supreme leader Xi because Muddi already cried many times from Sub docking in Sri Lanka, Patrol Maldives as deterrence to Indian Navy and Rail link to Nepal. When US saw how mistreated and abused India to challenge China over Indian Ocean, they know that China will not go easy on them once they're within our reach.

 
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Those things are not enough, one also needs balls to mess with india which we know you got none.
And we wont bother with those petty equipments we will straight away blow china with yellow mushroom clouds.

:yahoo: hello hello

we got those
 
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We have the real time monitoring sat, we only need 15 min to actively monitor and guide DF-21D to sink any of your ship.
DF-21D neither has range to cover entire Indian ocean nor you have given any evidence for having terminal guidance capability in Indian ocean. Near easter coast you have your long range radars and satellite cover. Not exactly in Indian ocean region.

And To destroy our S-400 near your border, you will have to answer to PLA artilleries first
What makes you think that your S-400 will not be targetted using an Indian artillery barrage if it is close to the border? You can waste your precious missiles to counter the cheap shells OR loose your even more precious S-400 batteries.

as for the rail go, we have
And I accept merely your word for that, right?

And about our ASAT, we can virtually deny India from go into space that's why Nehru was crying when we got Tibet because India is totally at our mercy from every strategic issue including the water control.
What the heck Tibet has to do with ASAT capability? In the time of Nehru there was no ASAT technology anywhere, let alone China.

If China was the punch bag then what about India for over 800 years since the Muslim Mughal empire dominated India, you guys are nothing by kick boxing bag of the millennium :lol:.
You confused 'Punching Back' --a phrase used by your own monkey Xi-Ding-Dong-- with 'punch bag'[sic]. I say either put the bong down or go back to your meds. Its disturbing your reading, writing and thinking.

PS: So, when is your Ding-Dong sub showing up in Puget Sound?
PPS: Tell the Xi-Ding-Dong-Monkey to stop making empty threats and yeah, prevent a stock market melt-down in China. Trade war is making Chinese wet their pants.

:yahoo: hello hello

we got those
Good! Chinese technology and Pakistani 'Balls'. What can go wrong! :rofl:
 
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DF-21D neither has range to cover entire Indian ocean nor you have given any evidence for having terminal guidance capability in Indian ocean. Near easter coast you have your long range radars and satellite cover. Not exactly in Indian ocean region.

For the coverage, the YAOGAN Naval Ocean Surveillance System (YNOSS) is a series of signals intelligence satellites that conduct electronic signals intelligence for the PLA Navy.
Currently, the YAOGAN 9, YAOGAN 16, YAOGAN 17, YAOGAN 20, YAOGAN 25, YAOGAN-30 and YAOGAN-31 triplets, totalling 21 satellites, provide a worldwide coverage 24/7/365.
No surface vessel of the India Navy can escape its detection. Submerged vessels are tracked by the Hainan Incoherent Scattered Radars.

To treat these detected and identified targets, the 12x12 TEL mounted DF-26 ASBM with a range of 4000km can be guided in real-time via satellite data link and other Stratospheric platforms such as UAVs and blimps.
The Hypersonic warhead version DF-27 provides even an additional striking accuracy with increased survivability against interception.


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▲ DF-26 ASBM providing a 4000km coverage.

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▲ Deployed DF-26 ASBM Brigade.

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▲ Deployed DF-26 ASBM Brigade.

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▲ Satellite imagery of the DF-27 ASBM with Hypersonic warhead.

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▲ Satellite imagery of the DF-27 ASBM with Hypersonic warhead.


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