AESA existed before metamaterials existed as a field of science. Therefore meta materials are not an integral part of AESA
Now it makes sense why you posted this:
http://en.wikipedia.org/wiki/E-2_Hawkeye
First flight 1960
Did you think that just becuase the E-2 presently has EASA that it had it on its first flight?
The first airborn aircraft to receive AESA was the F-15, in the year 2000.
Raytheon Marks 10 Years of AESA Radar Flight -- FARNBOROUGH, England, July 21, 2010 /PRNewswire/ --
A squadron of Air Force F-15Cs was the first to become operational with the world's first tactical AESA radar systems in December 2000.
Further, you stated that metamaterials came along in 1990, lets take into account that AESA was used before 1990. I never claimed that AESA is solely reliant on metametamaterials, instead
you claimed that AESA does not use metamaterial.
That paper you posted just says that metamaterials can be used to make Antenna's. Notice the title says past, present and future developments? You can make batteries out of your own pee, whats your point?
Still in denial? Lets look at another source--a scientific journal:
IEEE Xplore is Under Maintenance
Many think that radar is a mature field, nothing new to happen, it having been around a long time. Nothing can be further from the truth. When I entered the field in the '50s I thought the same thing. The MIT Radiation Lab. Series 28 book volume set summarizing the highly classified World War II work on radar was just published and provided the definitive coverage and there was to be nothing more to learn. How wrong I was. Since then many amazing new developments have taken place. Things are moving even faster now. We live in exciting times. Phased array radars and radars have seen in recent years breakthroughs that lead to capabilities not possible only a few years ago. This is exemplified by the development of GaAs integrated microwave circuits called monolithic microwave integrated circuits (MMIC) which makes it possible to build active electronically scanned arrays (AESAs) having lighter weight, smaller volume, higher reliability and lower cost. MMIC allows the construction of AESAs for applications not feasible before. This integration has reached the point where it is possible to now build a low cost 35 GHz phased array for a missile seeker costing $40/element (total cost of array including all electronics divided by number of elements). The advances provided by Moore's Law has now made it is feasible to do digital beam forming with all its numerous advantages. One advantage of digital beamforming is the ability to lower the search power and occupancy by up to a factor of two. Another advantage is that it makes it possible to achieve the performance of a fully adaptive array without having to do a large matrix inversion, i.e., it makes adaptive-adaptive array processing or equivalently principal decomposition feasible. Also covered will be: the potential for GaN and SiC chips which have the capability of a factor of ten higher peak power than GaAs chips; arrays with instantaneous bandwidths of up to 33:1; SiGe low cost T/R modules; low cost MEMS arrays; meta- materials which provide negative refractivity possibly allowing focusing beyond the diffraction limit; a real radar application for Multiple-Input Multiple-Output (MIMO) as opposed to fantasy has been demonstrated by Lincoln Laboratory MIT which allows the coherent combining of two radars to achieve a 9 dB increase in sensitivity; the ability to build microwave tubes that are smaller, more power efficient, lighter, require lower voltages and have lower cost.
So how many times were you proved wrong?
Most of the aerospace industry is civilian jets, military jets they are definitely not made from AL2024, also there is not one type of metal that is used. When engineering something like a jet a heat analysis is done along with stress tests on every part. They will use stronger alloys for parts of the plane that takes more punishment, point of stagnation will have more pressure.
Really?
Let see:
2024 Aluminum Alloy - Aviation Metals
Alloy 2024 plate products are used in fuselage structurals, wing tension members, shear webs and ribs and structural areas where stiffness, fatigue performance and good strength are required. Sheet products, usually alclad, are used extensively in commercial and military aircraft for fuselage skins, wing skins and engine areas where elevated temperatures to 250°F (121°C) are often encountered.
To reiterate my point, most of the alloys used in the F-22 are common on other aircraft too, the only difference is that the F-22 uses more of the good stuff such as titanium, even Boing has acknowledged that the parts they manufacture for the F-22 are mostly titanium and aluminum alloys by weight.
Your're badly underestimating Russia based on fact that Russia has less research papers than China, and thus because of that you are are comming to conclusions that China can manufacture something better than the pak-fa and that Chinese technology rivals US technology. Like i mentioned that is flawed thinking, becuase there are many countries that rank fairly low in material sciences that produce amazing technology. Likewise there are countries that rank high that do not produce anything ground breaking.
With that said, even if the pak-fa doesn't have as advanced composites as the F-22 it would make little difference because the pak-fa will still be light and strong just like other Russian aircraft.
Still think Russia neglects nano technology or has no experience?
SpringerLink -
With a budget of up to $10 billion (USD) in government funds, RUSNANO co-invests in nanotechnology projects in areas such as solar energy, composite materials, nano-biotechnology, and mechanical engineering that have high potential for commercial or social benefit. RUSNANO stipulates that all companies that win funding must operate in Russia. Its goal is to ensure the production of the value of Russias nanotechnology industry reaches $30 billion by 2015.
Nano technology being taken vary serious and as a result many innovations are being made, lets say that Russian composites lag behind many countries, but there is one factor not taken into account, Russia has been able to examine many forign aircraft everything from F-4's, F-5's, Mirage, perhaps F-16's from Venuzuela and of course the F-117 wreckage from Kosovo.
Russia Offers India $8 Billion Weapons Deal
The Serbs are believed to have invited Russian personnel to inspect the remains.
Senior Russian aerospace officials admitted that the F-117 was being used to test new anti-stealth.
So not only did Russia test the alloy composition of the F-117 but also the radar absorbent material among other things.
Wow, just wow, a radar is made up of many components, here's a few: entanna, transmiter modules, and of course the radar computer.
The computer processes: aerial targets, provides terrain mapping, distiguishes clutter, and assignes targets.
And who said radars are computers? A radar is full of computers, those same computers allow the above functions to be possible.
But in emerging fields they can keep up, for instance Quantum physics China currently holds 3 world records
China has world record for quantum teleportation
DailyTech - China Teleports Photons 10 Miles, Surpasses U.S./European Record
I can pull up random articals claiming that Russia has created the worlds first this and that, or discovered this or that. For instance:
CBC News - Technology & Science - U.S., Russian scientists create element 117
Researchers working at a particle accelerator at the Flerov Laboratory of Nuclear Reactions in Dubna, 120 kilometres north of Moscow, created six atoms of element 117.
The discovery fills in the gap between the previously synthesized elements 116 and 118, meaning all the elements with atomic numbers between one and 118 have been observed.
"During a long (half a year) experiment, six events of the 'birth' of the new element were registered," A.N. Sissakian of the Joint Institute for Nuclear Research in Dubna said in a statement.
What are you trying to prove? That aircraft such as E-2's use AESA? You should have learned from your other post that Weki can be garbage, much of the aircraft listed did not use AESA, instead AESA was in the development stages, Either way what were you trying to prove?
