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Japan Defence Forum

Steps taken towards capacity to strike bases in foreign territory, acquisition of F-35Bs (which naturally means conversion of Izumo from heli carrier to fighter carrier), and mentioning of NATO's 2% defense GDP target.
---start---
Panels of the ruling Liberal Democratic Party approved Friday a draft proposal for the government to develop the ability to strike enemy bases.

Considering North Korea's nuclear and missile development and China's maritime assertiveness, the LDP will make proposals for beefing up defense capabilities, including a request for acquiring F-35B advanced stealth fighter jets.

The government maintains the position that having a strike capability is possible under the war-renouncing Constitution if it can be considered a self-defense measure. But whether it can actually possess such a capability remains a politically sensitive issue.

The proposals will be submitted to Prime Minister Shinzo Abe, who also heads the party, within the month and reflected in Japan's defense buildup guidelines to be reviewed at the end of the year.

The LDP will also call for securing a "sufficient" defense budget. While falling short of presenting numerical targets, it referred to the North Atlantic Treaty Organization's goal of spending 2 percent of gross domestic product on defense.
---end---
https://japantoday.com/category/politics/ldp-panels-ok-proposal-for-capability-to-strike-enemy-bases

New JMSDF video

This was my last post for good さよなら。
 
Last edited:
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Someone called, so just a souvenir.

IHI completed the prototype of a fighter jet engine and it was received by the MoD. They will conduct operational testing of it up until the end of FY 2019. The engine is about 4.8 meters long, about 1 meter in diameter, and has at least a thrust of 15 tons with afterburner and at least a thrust of 11 tons without afterburner.
xf9engine.jpg

http://www.ihi.co.jp/ihi/all_news/2018/aeroengine_space_defense/2018-6-29/index.html
http://www.mod.go.jp/atla/pinup/pinup300629.pdf

はい、さよなら。
 
. .
Contributions here are now over.
For more as time goes on, go to the link (don't mind the google warning, just by pass it):
http://www.tank-net.com/forums/index.php?showforum=49

KAPPC on Extension of U.S.-Japan Atomic Energy Agreement
Aug. 6, Juche 107 (2018) Monday

The Korea Asia-Pacific Peace Committee (KAPPC) issued a white paper on Saturday disclosing the dangerous attempt and ▄▄▄ nature behind the U.S. and Japanese ▄▄▄'s moves for the extension of the atomic energy agreement as the 30-year duration U.S.-Japan atomic energy agreement, that had been to be expired by July 16, was automatically extended.

Japan has persistently and frantically sought nuclear ambition century after century, the white paper said, and went on:

Historically, the Japanese reactionaries have called for resolutely opposing possession and use of nuclear weapons as Japan is the world's only nuclear victim.

But, quite contrary to this repeated call, they have desperately worked for the realization of nuclear weaponization with vaulting ambition for it from long ago.

Japan which had conducted nuclear researches from early in the 1930s began to earnestly push forward the A-bomb development upon entering the 1940s under the direct governance by the military just until its defeat.

In 1956 they adopted the policy on the re-processing of spent nuclear fuel for the potential possession of nuclear capabilities and began to produce plutonium from 1977. In the 1980s they even manufactured fast breeder reactor called Monju for the mass-procurement of plutonium.

After the adoption of the U.S.-Japan atomic energy agreement in 1988 Japan has been keen on the extraction of plutonium even by importing and re-processing spent nuclear fuel from other countries.

The white paper disclosed the double-dealing attitude of the U.S. feigning ignorance of Japan's attempt at nuclear development. It continued:

Japan is the only country the plutonium production through nuclear reprocessing by which is allowed in the world except the five permanent members of the United Nations Security Council.

Through the 1988 U.S.-Japan atomic energy agreement, the U.S. granted Japan the right to reprocess spent nuclear fuel which heartened the Japanese reactionaries spur the stockpiling of plutonium for nuclear weaponization for the past 30 years.

Far back in the middle of the 1950s the U.S. transferred uranium enrichment technology and other core technologies necessary for the nuclear weapons development to Japan under "Atomic Energy Marshall Plan" and by the end of the 1960s it offered Japan weapons-grade plutonium weighing 365 kg under the excuse of test.

It was the Ford Administration of the U.S. which agreed on the construction of reprocessing factory in Japan in 1976 and it was the Carter Administration that hinted at Japan in 1977 that nuclear weapons can be made with atomic reactor-grade plutonium.

The adoption of the July, 1988 U.S.-Japan atomic energy agreement granted Japan the right to plutonium extraction by reprocessing spent nuclear fuel and uranium enrichment, a step little short of giving free rein to the Japanese reactionaries' ambition for independent nuclear weaponization.

Japan's nuclear weaponization and the worldwide nuclear disaster there-from can happen any moment.

The amount of plutonium stockpiled in the world so far is 518 tons out of which 47 tons are held by Japan.

However, the U.S. and the Japanese reactionaries openly committed unethical and anti-peace ▄▄▄ of making the U.S.-Japan atomic energy agreement get automatically extended.

This, needless to say, is a product of conspiracy between the islanders keen on turning the island into a military power and realizing the old dream of the "Greater East Asia Co-prosperity Sphere" under the active patronage and at the tacit connivance of their master, and the U.S. thinking of holding control of its henchmen with " favor of special treatment" and use them as a shock brigade in realizing its Asia domination strategy.

If the U.S. has the intent on the denuclearization of the Korean peninsula, it has to duly take issue with Japan's nuclear weaponization moves and judge the situation from a fair stand.

Japan has to self-control itself, clearly understanding that its frivolous attitude will precipitate its international isolation and miserable self-destruction.

Rodong News Team

http://rodong.rep.kp/en/index.php?strPageID=SF01_02_01&newsID=2018-08-06-0002
 
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What Japan’s F-22/F-35 Fighter Hybrid Might Look Like

The F-3 could be the next world-beating fighter jet.

bf2f096f-4d0a-456b-a131-44babf768632.jpg

By Kyle Mizokami
Apr 23, 2018
363



gettyimages-848117616-1524512604.jpg

Getty Images

Last week, Lockheed Martin proposed building a hybrid F-22 Raptor/F-35 Joint Strike Fighter for Japan. The jet, possibly to be known as F-3, would be the most advanced jet fighter in the world. Why Japan wants the best fighter it can possibly afford, and why such a high-tech nation was forced to go to an American company, is a story that traces back to World War II.

At the end of the Second World War, Japan lay in ruins. Blasted by bombing raids and even two nuclear weapons, the country’s largest cities were utterly destroyed, and Japan faced decades of rebuilding. The larger issues aside, Japan had failed to maintain air superiority, allowing American B-29 bombers to ravage the country at will.

In the aftermath of the war, Japan allied with the United States and purchased the very best air superiority fighters it could afford. The Asian country was among the first customers for the F-104 Starfighter, F-4 Phantom and F-15 Eagle. Japan purchased and built under license more than 200 F-15s, converted to the F-15J standard, which also boosted the domestic aviation industry. The F-15J, nearly forty years after entering service, is still the frontline fighter for Japan’s Air Self Defense Force.

gettyimages-457874446-1524512712.jpg


Japanese F-15J fighters.
Getty Images
The F-15J is a great aircraft, but the airframes are growing old and the plane is growing increasingly outdated. There’s also the matter of the People’s Liberation Army Air Force, which is increasingly flying sorties near Japanese territory, and the PLAAF is working to acquire new J-20 and FC-31 fifth-generation fighter jets. China—far from a traditional air power—now has a homegrown stealth fighter, and Japan does not.

Japan didn’t intend to wait so long for new fighters. The country originally planned to purchase the F-22 Raptor, but a U.S. law meant to protect the F-22’s technology from prying eyes banned the fighter from export. (Ironically, the law is rooted in Israel’s unauthorized export of U.S. fighter technology to China, which resulted in the J-10 “Vigorous Dragon” fighter.)

gettyimages-523093268-1524512639.jpg


Japan’s X-2 technology demonstrator.
Getty ImagesKaz Photography
Japan, disappointed by the export ban, started developing a demonstration jet that would eventually lead to a new fighter while simultaneously holding out hope that the F-22 export ban would eventually be overturned. (It hasn't been.) The ATD-X demonstrator, nicknamed X-2, finally flew in April 2016. ATD-X, painted in the national red and white colors, looked like Japan’s bold return to the world of fighter jet development.

But building a limited technology demonstrator is a far cry from building a modern, fifth-generation jet fighter for mass production. Japan faced an uphill battle. The country’s aerospace industry is not where you would expect the third largest economy in the world to be. Japan lacks expertise in avionics, systems integration, airframe development, software, electronic countermeasures and, perhaps most importantly, stealth technology. If Japan wanted to build an air superiority fighter all on its own, it would have to become a world leader in those technologies—and fast.

gettyimages-824402154-1524512815.jpg


Three Chengdu J-20 fighters in formation.
Getty Images
Japan's homegrown fighter was just not practical or affordable. Japan’s public debt is 253 percent of GDP, one of the largest in the modern world. Last month, news sources announced Japan was scrapping an effort to produce an indigenous air superiority fighter, opting to instead develop one with an international partner.

Now we know who that partner might be: Lockheed Martin. Aside from Sukhoi in Russia and Chengdu in China, Lockheed Martin is the only company in the world that has actually developed and produced stealthy, fifth-generation fighters. According to a report in Reuters, Lockheed is offering a hybrid F-22 Raptor/F-35 Joint Strike Fighter jet, combining the best attributes of both.

gettyimages-830767592-1524512871.jpg


Sukhoi Su-57 fighters.
Getty Images
So what would this stealthy F-3 hybrid jet look like? The first thing that comes to mind is an F-22 Raptor on the outside with the F-35 JSF on the inside. Such a design would combine the Raptor’s stealth, twin engine layout, supermaneuverability and larger internal payload with the JSF’s advanced computers, modern avionics and networking capabilities. (The F-22 Raptor, while a still a fairly modern jet, runs on 286 microprocessors from the Windows 95 era.) In a perfect world, a hybrid jet would have all of the strengths of the F-22 and F-35 with none of their weaknesses. Meanwhile, Japan will want to integrate what equipment it can produce domestically, including Japanese engines and a Japanese nose-mounted radar.

The F-3 would also be attractive to other nations that were frozen out of F-22 purchases but still need a world-class air superiority jet. Japan, Australia, Saudi Arabia and Israel were all interested in purchasing the F-22. The 800-pound gorilla in the room is the U.S. Air Force, which had its Cold War-era order of more than 700 F-22s cut to just 187 operational jets. When F-22 production ended, air superiority wasn’t a high priority, and simultaneous wars in Iraq and Afghanistan sapped resources from high-end weapon programs. Since then, Russia and China have both grown more aggressive, and the two global powers have their own fifth-generation jets in development or even operational. If Japan pays for the development costs of F-3, the U.S. Air Force could piggyback onto the purchase, lowering costs for all parties.

gettyimages-911571968-1524512970.jpg


Air Self Defense Force F-35A at Misawa Air Base, Japan.
Getty Images
So how soon could this happen? An F-22/F-35 mashup would probably take ten years to develop and could cost more than 60 billion dollars. In 2017, an Air Force study quoted the cost of procuring an additional 194 F-22s at 50 billion dollars—including ten billion just to restart the production line. Integrating F-35 and Japanese technology would be a lengthy and expensive process. The F-22 tooling, jigs, and instruction videos stored in Northern California at Sierra Army Depot are present and accounted for, despite earlier worries that some of it was missing.

Japan’s F-15J fighters may need to soldier on for another decade or more, but it looks like a worthy replacement is on the horizon. Japan, with both Russia and China as neighbors, has little choice but to proceed with the project, no matter the cost. Whether other countries, particularly the United States, choose to participate is another matter. But if the body of an F-22 is outfitted with the brain of an F-35, whoever flies the new jet will have the shiniest, deadliest fighter on the block.

https://www.popularmechanics.com/mi...pans-f-22f-35-hybrid-fighter-might-look-like/
 
.
What Japan’s F-22/F-35 Fighter Hybrid Might Look Like

The F-3 could be the next world-beating fighter jet.

bf2f096f-4d0a-456b-a131-44babf768632.jpg

By Kyle Mizokami
Apr 23, 2018
363



gettyimages-848117616-1524512604.jpg

Getty Images

Last week, Lockheed Martin proposed building a hybrid F-22 Raptor/F-35 Joint Strike Fighter for Japan. The jet, possibly to be known as F-3, would be the most advanced jet fighter in the world. Why Japan wants the best fighter it can possibly afford, and why such a high-tech nation was forced to go to an American company, is a story that traces back to World War II.

At the end of the Second World War, Japan lay in ruins. Blasted by bombing raids and even two nuclear weapons, the country’s largest cities were utterly destroyed, and Japan faced decades of rebuilding. The larger issues aside, Japan had failed to maintain air superiority, allowing American B-29 bombers to ravage the country at will.

In the aftermath of the war, Japan allied with the United States and purchased the very best air superiority fighters it could afford. The Asian country was among the first customers for the F-104 Starfighter, F-4 Phantom and F-15 Eagle. Japan purchased and built under license more than 200 F-15s, converted to the F-15J standard, which also boosted the domestic aviation industry. The F-15J, nearly forty years after entering service, is still the frontline fighter for Japan’s Air Self Defense Force.

gettyimages-457874446-1524512712.jpg


Japanese F-15J fighters.
Getty Images
The F-15J is a great aircraft, but the airframes are growing old and the plane is growing increasingly outdated. There’s also the matter of the People’s Liberation Army Air Force, which is increasingly flying sorties near Japanese territory, and the PLAAF is working to acquire new J-20 and FC-31 fifth-generation fighter jets. China—far from a traditional air power—now has a homegrown stealth fighter, and Japan does not.

Japan didn’t intend to wait so long for new fighters. The country originally planned to purchase the F-22 Raptor, but a U.S. law meant to protect the F-22’s technology from prying eyes banned the fighter from export. (Ironically, the law is rooted in Israel’s unauthorized export of U.S. fighter technology to China, which resulted in the J-10 “Vigorous Dragon” fighter.)

gettyimages-523093268-1524512639.jpg


Japan’s X-2 technology demonstrator.
Getty ImagesKaz Photography
Japan, disappointed by the export ban, started developing a demonstration jet that would eventually lead to a new fighter while simultaneously holding out hope that the F-22 export ban would eventually be overturned. (It hasn't been.) The ATD-X demonstrator, nicknamed X-2, finally flew in April 2016. ATD-X, painted in the national red and white colors, looked like Japan’s bold return to the world of fighter jet development.

But building a limited technology demonstrator is a far cry from building a modern, fifth-generation jet fighter for mass production. Japan faced an uphill battle. The country’s aerospace industry is not where you would expect the third largest economy in the world to be. Japan lacks expertise in avionics, systems integration, airframe development, software, electronic countermeasures and, perhaps most importantly, stealth technology. If Japan wanted to build an air superiority fighter all on its own, it would have to become a world leader in those technologies—and fast.

gettyimages-824402154-1524512815.jpg


Three Chengdu J-20 fighters in formation.
Getty Images
Japan's homegrown fighter was just not practical or affordable. Japan’s public debt is 253 percent of GDP, one of the largest in the modern world. Last month, news sources announced Japan was scrapping an effort to produce an indigenous air superiority fighter, opting to instead develop one with an international partner.

Now we know who that partner might be: Lockheed Martin. Aside from Sukhoi in Russia and Chengdu in China, Lockheed Martin is the only company in the world that has actually developed and produced stealthy, fifth-generation fighters. According to a report in Reuters, Lockheed is offering a hybrid F-22 Raptor/F-35 Joint Strike Fighter jet, combining the best attributes of both.

gettyimages-830767592-1524512871.jpg


Sukhoi Su-57 fighters.
Getty Images
So what would this stealthy F-3 hybrid jet look like? The first thing that comes to mind is an F-22 Raptor on the outside with the F-35 JSF on the inside. Such a design would combine the Raptor’s stealth, twin engine layout, supermaneuverability and larger internal payload with the JSF’s advanced computers, modern avionics and networking capabilities. (The F-22 Raptor, while a still a fairly modern jet, runs on 286 microprocessors from the Windows 95 era.) In a perfect world, a hybrid jet would have all of the strengths of the F-22 and F-35 with none of their weaknesses. Meanwhile, Japan will want to integrate what equipment it can produce domestically, including Japanese engines and a Japanese nose-mounted radar.

The F-3 would also be attractive to other nations that were frozen out of F-22 purchases but still need a world-class air superiority jet. Japan, Australia, Saudi Arabia and Israel were all interested in purchasing the F-22. The 800-pound gorilla in the room is the U.S. Air Force, which had its Cold War-era order of more than 700 F-22s cut to just 187 operational jets. When F-22 production ended, air superiority wasn’t a high priority, and simultaneous wars in Iraq and Afghanistan sapped resources from high-end weapon programs. Since then, Russia and China have both grown more aggressive, and the two global powers have their own fifth-generation jets in development or even operational. If Japan pays for the development costs of F-3, the U.S. Air Force could piggyback onto the purchase, lowering costs for all parties.

gettyimages-911571968-1524512970.jpg


Air Self Defense Force F-35A at Misawa Air Base, Japan.
Getty Images
So how soon could this happen? An F-22/F-35 mashup would probably take ten years to develop and could cost more than 60 billion dollars. In 2017, an Air Force study quoted the cost of procuring an additional 194 F-22s at 50 billion dollars—including ten billion just to restart the production line. Integrating F-35 and Japanese technology would be a lengthy and expensive process. The F-22 tooling, jigs, and instruction videos stored in Northern California at Sierra Army Depot are present and accounted for, despite earlier worries that some of it was missing.

Japan’s F-15J fighters may need to soldier on for another decade or more, but it looks like a worthy replacement is on the horizon. Japan, with both Russia and China as neighbors, has little choice but to proceed with the project, no matter the cost. Whether other countries, particularly the United States, choose to participate is another matter. But if the body of an F-22 is outfitted with the brain of an F-35, whoever flies the new jet will have the shiniest, deadliest fighter on the block.

https://www.popularmechanics.com/mi...pans-f-22f-35-hybrid-fighter-might-look-like/

Northrop Grumman is also looking to get in on the action, maybe revive the YF-23 Black Widow that lost to the F-22 (article by the same dude :D):

Now Northrop Grumman Wants to Build Japan's New Fighter Jet

Northrop and Lockheed Martin tangled over fighter jets a generation ago. Now they could be headed for a showdown in Tokyo.

bf2f096f-4d0a-456b-a131-44babf768632.jpg

By Kyle Mizokami
Jul 9, 2018
611
1280px-yf-23-front-1531163657.jpg

WIKIMEDIA COMMONS
U.S. defense giant Northrop Grumman says it is “very interested” in Japan’s F-3 program to build the nation a new fighter jet, setting up Northrop to compete against Lockheed Martin. Such a battle could mirror one that took place in the 1990s and resulted in the U.S. Air Force’s F-22 Raptor.

gettyimages-457883122-1531163390.jpg

Japan’s F-15J fighter (left) and F-2 fighter (right).
GETTY IMAGES
Japan's fleet of fighter jets is a pillar of the country's defense. Tokyo fields a force of more than 200 F-15J fighters, the largest F-15 fleet outside of the U.S. Air Force. Japan’s F-15 fleet is also one of the oldest.

At one point the country banked on replacing those F-15s with F-22 Raptors. But a 1998 American law meant to protect the fighter’s secrets restricted the F-22 from export, even to an ally. Suddenly Japan was left without any viable replacement for its fleet of air superiority fighters. The country spent several years working on a domestic technology demonstrator, named ATD-X, but concluded it would be too expensive to develop alone.

Now Japan is soliciting for help from abroad, hoping to cut the amount of time it would take to field a new fighter. Defense giant Lockheed Martin, developer of the F-22 Raptor and F-35 Joint Strike Fighter was the first to answer the call, offering a hybrid of those two planes.

Now, according to Reuters, another American defense giant is tossing its hat in the ring. Northrop Grumman has responded to Japan's request. The company ticked off a list of technologies it could contribute to the F-3 fighter program, but has not made a formal proposal. (Other defense contractors could still enter the F-3 competition, particularly Boeing and BAE.)

1504026662-northrop-yf-23-dfrc.jpg

WIKIPEDIA
ADVERTISEMENT - CONTINUE READING BELOW

Lockheed Martin and Northrop Grumman went head-to-head back in the early 1990s during the Advanced Tactical Fighter competition. After a fly-off between LockMart’s YF-22 and Northrop’s YF-23, the YF-22 was declared the winner and went on to become the F-22 Raptor.

Northrop enters the competition at a disadvantage. Although it's one of the biggest aviation companies in the world, it hasn’t designed and built a fighter since the YF-23. The company has concentrated on drones, particularly the RQ-4 Global Hawk, and bombers—both the B-2 Spirit and upcoming B-21 Raider.

What could Northrop offer Japan? Despite a reputation as a technological powerhouse, Japan’s aerospace industry lags behind in key areas, including avionics, systems integration, networking, and stealth. Japan could eventually develop all of these things by itself, but at staggering cost. Time is also not Japan’s side, as the oldest of the country’s F-15J fighters is nearing 40.

The F-3 fighter will need cutting edge technologies to offset any numerical advantages China’s air force will bring to a future fight. A fleet of F-3s equipped with stealth and networking technology could coordinate attacks against numerically superior enemies. Northrop Grumman touts itself as a master of combat aircraft technology, including “system design, air vehicle design, flight controls, vehicle management systems, network-enabling technologies and survivability.” Japan needs all the tech, especially “survivability,” otherwise known as stealth technology. As developer of the B-21 Raider bomber, Northrop will have access to the absolute latest in American stealth technology.

screen-shot-2018-07-09-at-11-59-49-am-1531163179.png

A sixth generation fighter design that appeared in a 2016 Northrop Grumman promotional video.
YOUTUBE
What would the Northrop jet look like? It would almost certainly have two engines, a longer range to allow more Japanese air bases to contribute to patrolling national borders facing North Korea and China, and the ability to cruise above Mach 1. Northrop’s recent manned combat jets have all been flying wings, but a flying wing design is generally a poor dogfighter. In 2016, the company teased an image of a tailless sixth-generation fighter in a promotional video (see above) but there may not be time and money to develop a new airframe.

One possibility is the resurrection of the YF-23 design, with modernized electronics and a Japanese engine. (One positive outcome of the ATD-X program has been Japanese advances in high performance jet engines.) If that’s Northrop’s proposal, then we could be living through the 1990s all over again, pitting Son of F-22/F-35 versus a reincarnated Son of YF-23.

https://www.popularmechanics.com/military/aviation/a22093705/northrop-grumman-japans-fighter-jet/

Whether LM or NG, if Japan bears the burden for kickstarting everything, and the US piggybacks and drives per unit cost down by purchasing a lot, this could work for both.
 
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Japan lives in a world of illusions if she thinks that she owns part of the Russian territory.

Commentary

The fundamentals that dictates the policies are: territorial cores (Kuril island, Dok Island, Senkaku Island, etc), strategic ressources (rare earth, hydrocarbons, oceanic seabed metals, etc). Plentyful of frictions here, but worse, like during the collapse of the Mongol Empire, the splinters will start to fight against each others. Look at the Soviet Union after 1991, and even today! Can you tell us that the day the U.S. Dystopian Empire collapses, Japan will not be the first to shoot? The possession of he Epsilon rocket gives Japan an ICBM capability comparable to the Chinese DF-41!

PLA DF-41 ICBM
Mass ~80t
Length ~21 metres
Diameter ~2.25 m
Operational range ~14,000–15,000 kilometres

Japan Epsilon rocket
Mass 91 t
Length 26 m
Diameter 2.5 m
Operational range ~14,000–15,000 kilometres
 
.
Commentary

The fundamentals that dictates the policies are: territorial cores (Kuril island, Dok Island, Senkaku Island, etc), strategic ressources (rare earth, hydrocarbons, oceanic seabed metals, etc). Plentyful of frictions here, but worse, like during the collapse of the Mongol Empire, the splinters will start to fight against each others. Look at the Soviet Union after 1991, and even today! Can you tell us that the day the U.S. Dystopian Empire collapses, Japan will not be the first to shoot? The possession of he Epsilon rocket gives Japan an ICBM capability comparable to the Chinese DF-41!

PLA DF-41 ICBM
Mass ~80t
Length ~21 metres
Diameter ~2.25 m
Operational range ~14,000–15,000 kilometres

Japan Epsilon rocket
Mass 91 t
Length 26 m
Diameter 2.5 m
Operational range ~14,000–15,000 kilometres

Please note that under the guise of "civilian research and demonstration platform", Japan has tested live and perfected with the tacit connivence of the U.S. its warhead reentry technologies:

• On January 15, 1995, launched by a M-3SII rocket from the Kagoshima Space Center, jointly developed by Japan and Germany, the EXPRESS's reentry vehicle or "capsule", that should have landed in Woomera, Australia, and that was not injected into the planned orbit due to a rocket malfunction.
Code:
Total Weight 765kg
-Service Module 360kg
-Re-entry Module 405kg

Heat Shield     Ablator
Attitude Control     3-Axis Control
Payload Power     Continuous 92W, Peak 400W

express_01.jpg

▲ Japanese reentry vehicle launched on January 15, 1995.

express_02.jpg

▲ Japanese reentry vehicle launched on January 15, 1995 and recovered in Ghana, Africa.

• On September 10, 2002, launched by a H-IIA rocket, the USERS reentry vehicle or "spacecraft", and that remained in orbit approximately 8.5 months, before de-orbiting and splashing down at 6:23 JST on May 29, 2003 at open sea east of Ogasawara Islands.

Code:
Total Weight 1696 kg (3,740 pounds)
Height 1.94m
Diameter 1.48m
Payload Power 700W
-13.5Ah×2
Data link 遥测: USB:2048bps
- 指令: USB:4000bps
Recovery system GPS无线电信标,ARGOS信号发射器

n158ts012.jpg

▲ Reentry vehicle outline.

c30305_01.jpg
c3030625-1.jpg

▲ Kawasaki Heat Shield Technology used in the Reentry vehicle.

n158ts011.jpg

▲ Reentry vehicle recovered in the Pacific Ocean around the Ogasawara Islands after its re-entry in May 2003.

Reference:
【原创文章】东瀛上空的流星——日本返回式卫星发展简介
http://www.spaceflightfans.cn/45180.html


3.gif
 
Last edited:
.
Please note that under the guise of "civilian research and demonstration platform", Japan has tested live and perfected with the tacit connivence of the U.S. its warhead reentry technologies:

• On January 15, 1995, launched by a M-3SII rocket from the Kagoshima Space Center, jointly developed by Japan and Germany, the EXPRESS's reentry vehicle or "capsule", that should have landed in Woomera, Australia, and that was not injected into the planned orbit due to a rocket malfunction.
Code:
Total Weight 765kg
-Service Module 360kg
-Re-entry Module 405kg

Heat Shield     Ablator
Attitude Control     3-Axis Control
Payload Power     Continuous 92W, Peak 400W

express_01.jpg

▲ Japanese reentry vehicle launched on January 15, 1995.

express_02.jpg

▲ Japanese reentry vehicle launched on January 15, 1995 and recovered in Ghana, Africa.

• On September 10, 2002, launched by a H-IIA rocket, the USERS reentry vehicle or "spacecraft", and that remained in orbit approximately 8.5 months, before de-orbiting and splashing down at 6:23 JST on May 29, 2003 at open sea east of Ogasawara Islands.

Code:
Total Weight 1696 kg (3,740 pounds)
Height 1.94m
Diameter 1.48m
Payload Power 700W
-13.5Ah×2
Data link 遥测: USB:2048bps
- 指令: USB:4000bps
Recovery system GPS无线电信标,ARGOS信号发射器

n158ts012.jpg

▲ Reentry vehicle outline.

c30305_01.jpg
c3030625-1.jpg

▲ Kawasaki Heat Shield Technology used in the Reentry vehicle.

n158ts011.jpg

▲ Reentry vehicle recovered in the Pacific Ocean around the Ogasawara Islands after its re-entry in May 2003.

Reference:
【原创文章】东瀛上空的流星——日本返回式卫星发展简介
http://www.spaceflightfans.cn/45180.html


3.gif

this helps too

Another Battle of Tsushima in the making.

34.gif



Destruction of Nuclear Bombs Using Ultra-High Energy Neutrino Beam

Hirotaka Sugawara (Univ. of Hawaii), Hiroyuki Hagura (KEK), Toshiya Sanami (KEK)

(Submitted on 7 May 2003 (v1), last revised 29 Jun 2003 (this version, v2))

We discuss the possibility of utilizing the ultra-high energy neutrino beam (about 1000 TeV) to detect and destroy the nuclear bombs wherever they are and whoever possess them.

https://arxiv.org/pdf/hep-ph/0305062.pdf


Neutrino Counter Nuclear Weapon

Alfred Tang

(Submitted on 26 May 2008 (v1), last revised 25 Jun 2013 (this version, v4))

Radiations produced by neutrino-antineutrino annihilation at the Z0 pole can be used to heat up the primary stage of a thermonuclear warhead and can in principle detonate the device remotely. Neutrino-antineutrino annihilation can also be used as a tactical assault weapon to target hideouts that are unreachable by conventional means.

I. INTRODUCTION
Nuclear weapon is the most destructive kind among weapons of mass destruction. Hiroshima and Nagasaki are lessons in history that shall never be repeated. Since the end of World War II, world leaders had tried to control the proliferation of nuclear weapons by political means such as the Nuclear Non-proliferation Treaty in 1968. Many countries did not sign the treaty. In fact it seems that more and more countries are pursuing nuclear weapon programs nowadays. After September 11, the concern is that nuclear weapons will fall into the hands of terrorists. Strategically speaking the importance of a counter nuclear weapon may soon rival that of the nuclear weapon itself. The purpose of this paper is to explore the possibility of a neutrino counter nuclear weapon technology. The idea of using neutrinos to detonate or melt a nuclear weapon was first proposed by H. Sugawara, H. Hagura and T. Sanami [1]. Their futuristic design is based on a 1 PeV neutrino beam operating at 50 GW. It is unlikely that such an intense ultra high energy neutrino beam can be realized in the near future. Even if such a neutrino beam is made available, its radiation hazard will render it politically nonviable. Other proposals such as installing neutron detectors at the border to intercept nuclear materials had been considered. The current trend of non-proliferation policy is focused on monitoring the production of fissile fuels. Research is being conducted to use anti-neutrino detectors to this end [2]. Anti-neutrinos are produced in nuclear fission through beta decay. They are indicators of the fissile fuel composition of the nuclear reactor. Neutrino signatures of the fissile fuels cannot be tampered with by virtue of the very small reaction cross section of neutrinos at low energy. On the other hand, the small reaction probability also means small detection probability so that large detectors are needed to detect them. A sample idea is to deploy hundreds of kilo-ton liquid scintillor detectors at 1000 km distance from the reactor to monitor the reactor anti-neutrino spectrum. The challenges of using anti-neutrino to monitor reactor are that (1) a rogue nation will not voluntarily allow IAEA to build anti-neutrino detectors around its reactors, (2) the number of anti-neutrino detectors must increase 4 folds for every doubling of reactor-detector distance, and (3) reactors are not needed if a rogue nation opts for uranium instead of plutonium bombs. For these reasons, anti-neutrino detectors are probably not the ultimate solution to non-proliferation. Another possible non-proliferation strategy is to develop a technology that counters nuclear weapons.

This paper proposes an alternative idea for a neutrino counter nuclear weapon that shares some similarities with the idea presented in Reference [1] but is technologically feasible, relatively cheap and safe. The present idea is to focus a neutrino beam and an antineutrino beam together in a small region to allow them to annihilate so that high energy radiations are released as reaction products. The radiations cause neutron spallation in the sub-critical nuclear material and initiate fission reactions. The plutonium heats up, ignites the chemical explosive around the fissile (fissionable material) in the primary stage of a thermonuclear warhead and subsequently detonates the nuclear weapon. The reason of thinking about neutrino for this application is that neutrino cannot be shielded. It can hit a target such as a nuclear submarine from the other side of the globe and can penetrate a deep underground concrete bunker and missile silo. Since neutrino can penetrate the planet to reach a nuclear weapon on the other side of the globe near the speed of light, a neutrino counter nuclear weapon is in principle untraceable and indefensible. It is suggested that a neutrino counter nuclear weapon is 100% effective [3].

The trade-off of developing a counter weapon is the introduction of a new weapon. If the new weapon is less destructive than the original weapon, an ethical argument can be made in support of its development. If remote detonation of a nuclear weapon is made possible by a neutrino counter weapon, a nuclear weapon in the homeland becomes a liability so that there is a real strategic incentive to reduce the stockpile. In that case, there will be a much more convincing political reason to promote non-proliferation. This work aims to study the theoretical feasibility of the neutrino counter nuclear weapon as a first step in this direction. The use of neutrino as a tactical assault weapon will also be discussed.

https://arxiv.org/pdf/0805.3991.pdf


Reference:
中微子武器有可能吗?国内研究现状如何?
https://lt.cjdby.net/thread-2523440-1-1.html

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Japan Joins The Elite Club Of ASAT Capable Nation As The 5th Space Superpower V1.1

First posted 9 April 2019; Updated 10 April 2019

Table of Contents

1. Introduction
2. Japanese Co-orbital capability
3. Japanese ASAT capability
4. Japanese GEO ASAT Capability
5. Conclusion

1. Introduction

Following India's Shakti Mission ASAT test conducted on 27th March 2019, Japan has conducted on 5th April 2019 its own ASAT test under the guise of a scientific first to fool the world's low 96 IQs!
:rofl:
rFRrBh1.jpg

https://i.imgur.com/rFRrBh1.jpg ; https://twitter.com/timesofindia/status/1111342195842252805 ; https://timesofindia.indiatimes.com...all-you-want-to-know/articleshow/68608200.cms
1. Three different approaches of three of the ASAT Elite Club's superpowers: the U.S. 1959 nuclear-tipped warhead ASAT, the U.S.S.R. 1963 co-orbital killer satellite, the Chinese 2017 KKV ASAT.


2. Japanese Co-orbital capability

The Japanese have demonstrated co-orbital capability, as earlier as 1997 by launching ETS-VII (Engineering Test Satellite No.7) on November 28, 1997, to conduct rendezvous docking and space robot technology experiments. ETS-VII is the world’s first satellite that used a robot arm on a satellite. The robot arm was 2m long and was teleoperated from a ground control station. Mission of ETS-VII lasted for two years and yielded much experience and many results.

ets7_main_001.jpg

http://global.jaxa.jp/projects/sat/ets7/images/ets7_main_001.jpg ; http://global.jaxa.jp/projects/sat/ets7/index.html
2. KIKU-7(ETS-VII) is the satellite developed to acquire the basic technologies of rendezvous docking and space robotics which are essential to future space activities.
KIKU-7 consists of two satellites named "Chaser" and "Target." Each satellite is separated in space after launching and rendezvous docking experiment has been conducted three times, in which the Chaser satellite automatically and remotely being piloted. Furthermore, we have very often conducted the space robot experiments which include manipulation of small parts, propellant replenishment by using the robot arms installed on the Chaser remotely piloted. Several scientific data have been acquired by these experimental results.


ets7_list_001.jpg

http://global.jaxa.jp/projects/sat/ets7/images/ets7_list_001.jpg ; http://global.jaxa.jp/projects/sat/ets7/index.html
3. The KIKU-7 conducts the rendezvous-docking and space robotics experiments. In the rendezvous-docking experiment, the chaser satellite conducts rendezvous-docking with the target satellite by both automatic and remotely piloted controls, and in the space robotics experiments, unmanned space work is carried out by teleoperation. In addition, the space robotics experiments by MITI / ETL, CRL and NAL are carried out. The operation of the ETS-VII is conducted from the ground via data relay satellite (TDRS). These experiments on the KIKU-7 are the first attempt in the world and enable us to establish the basic technology for future space activities.
The operation of the rendez-vous-docking and space robotics experiments are conducted from the NASDA ground stations via data relay satellite (TDRS).


3. Japanese ASAT capability

Japan has tested on 5 April 2019, a weapon system that has shot a 2.5 kg copper projectile by an explosive propellant charge, with the asteroid 162173 Ryugu as target.

https://www.youtube.com/watch?v=4IsTheUJbgk
4. This video shows two camera angles from a test of Hayabusa2's SCI weapon on Earth in 2011. The copper projectile fires from a concrete bunker, penetrates several gridded targets, and hits a mound of dirt simulating asteroid Ryugu 100 meters away.


giphy.gif

https://media.giphy.com/media/XEUCygcXZGB940akWp/giphy.gif ; https://giphy.com/gifs/XEUCygcXZGB940akWp ; http://www.spaceflightfans.cn/wp-content/uploads/2019/04/mmexport1554510275778.gif ; http://www.spaceflightfans.cn/53497.html#more-53497
5. A test of Hayabusa2's SCI weapon on Earth in 2011. The copper projectile fires from a concrete bunker, penetrates several gridded targets, and hits a mound of dirt simulating asteroid Ryugu 100 meters away.


giphy.gif

https://media.giphy.com/media/cIsv7chSY5VUSRYWRK/giphy.gif ; https://giphy.com/gifs/cIsv7chSY5VUSRYWRK ; http://www.spaceflightfans.cn/wp-content/uploads/2019/04/mmexport1554510278667.gif ; http://www.spaceflightfans.cn/53497.html#more-53497
6. Animated CGI GIF of the Hayabusa2's SCI weapon with asteroid 162173 Ryugu as target.


4. Japanese GEO ASAT Capability

IRNSS Invincibility against Anti-satellite Missiles

August 25, 2015

Most importantly IRNSS satellites are placed in High Earth Orbit (HEO) at a height of 35,786 kilometres. It has strategic importance when considering anti-satellite missiles. It makes IRNSS
out of range of solid-fuelled intercontinental missiles and makes it a more challenging task for liquid-fuelled launch vehicles[32] to reach this strategic height. At this height it can be easily traced by Indian government in order to take necessary actions as per the situation[33].

https://www.c3sindia.org/science-te...of-the-sky-irnss-by-vithiyapathy-p/#_ednref32
Two stages solid fuel ASAT missile can not reach the 36,000 km GEO orbit. India's ASAT can only target LEO satellites.

While Japan, co-orbital ASAT can destroy GEO satellites. Not in the same league. And how can one know if Japan current GEO satellites are not fitted with these small ASAT projectile weapons that are small and so easy to conceal?

5. Conclusion

After demonstrating second cosmic velocity warhead reentry and ICBM capabilities, once again, under the patronage of the conniving U.S. in practicing double standard as regard to the application of international treaties and conventions (read Jungle Law), Japan has acquired a military capability that simply places this nation as the 4th space superpower.

:nono::mad::o:


:smokin:
 
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@Galactic Penguin SST

Please check the dates of March and April, something just does not match.

"India's Shakti Mission ASAT test conducted on 27th March 2019, was later than the test conducted by Japan on 5th April 2019."

# As Huawei said, the Empire is NOT the world. Its words are not the rules, and China is big and strong enough to simply disregard the garbages it vomits!
 
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Japan Grounds F-35 Fleet After Jet Disappears From Radar Over Pacific (2019-04-09)

Step aside Boeing, it's Lockheed Martin's turn to bask in the spotlight for at least a few hours.

Earlier today, a Japanese F-35 stealth fighter jet with one pilot on board unexpectedly disappeared from radar while on a training mission over the Pacific on Tuesday night, Kyodo reported citing the defense ministry. The fighter jet went missing at around 7:27 p.m. (1027 GMT) as it was flying 135 km east of Misawa in northeastern Japan, a ministry spokeswoman said.

It was not immediately clear if it had crashed, the spokesperson said, adding: “We are still trying to search for the aircraft.”

The fate of the pilot was also not immediately clear.

According to Japan's NHK, the plane lost contact about 30 minutes after taking off from Misawa Air Base, and added that the Self-Defence Forces and coastguard dispatched vessels to carry out rescue operations, NHK added.

What is embarrassing, is that according to the Defense Report, Japan’s first F-35A fighter squadron based at Misawa became operational on March 29.

As a result of the unexplained, and first ever, disappearance of the stealth fighter, Kyodo also reports that Japan will ground its entire fleet of F-35s until there is more clarity on what happened today.

https://www.zerohedge.com/news/2019...fleet-after-jet-disappears-radar-over-pacific
 
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@Galactic Penguin SST

Please check the dates of March and April, something just does not match.

"India's Shakti Mission ASAT test conducted on 27th March 2019, was later than the test conducted by Japan on 5th April 2019."

# As Huawei said, the Empire is NOT the world. Its words are not the rules, and China is big and strong enough to simply disregard the garbages it vomits!


Such heinous speach directed against China are totally off topic in the Japanese Defence Subforum!@Serpentine

It only betrays the French congenital racism, and inferiority complex, as exposing them being so backwards, surpassed not only by colored ex-colonized water carriers brown people of the Indian subcontinent but also the East Asian one. Following the latest test, this makes two East Asian nations, with Japan, an Empire that has ruled French Indochina during WWII, making the white Europeans French already subjugated people.

And no French ASAT superpower status in the horizon! Falling from their imaginary first place (that is what the media tells them), the Grande Nation's delusion is widdening with each passing days!

:rofl:
:smokin:
 
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