it's. four thirty here in moscow thank you for joining us here's a quick recap of your headlines dozens are killed in damascus and the first suicide bombings since the syrian uprising began in march authorities are laying the blame on al qaeda the attacks come as the arab league observers arrived in the country in an effort to work out a peaceful solution to the conflict. just days after the pullout of u.s. troops the iraqi government plunges deeper into political crisis following the bombing wave that more than seventy my its prime minister nouri al maliki has

called for his seventy deputies or law to be sacked the u.s. administration insists it left behind a stable country nine years after launching the invasion. and big brother is coming and he could be in your british taxi human rights activists in the search of surveillance cameras which are now to be installed in every taxi in the city of oxford or according not just the video but the audio was well authorities insist that the risk of personal intrusion is acceptable compared to the public safety benefits. those are the headlines coming up next a special nears edition of technology update don't go away. hello and welcome to technology update as you can see from the decorations at the

department store. it's that time of year again now this artificial tree. new materials are replacing natural and traditional ones left and right and that's especially true with carbon fibers which are increasingly finding their way into gadgets and playthings. actually been around for decades. and here are a refurbished car plant. to check out the opening of. the plant is expected to become the country's.

overall global tendency. or both indicative of the fact that in the near future possibly in a matter of a few years the demand for these materials. may bring about changes to the entire global economic system we are talking about millions of. soon as this breakthrough that is to say quantum leap occurs it will mean a revolution in technology a new world and russia. get to the carbon. first we have to make. which looks like. there are several ways to go basically are mixed with the.

two types of car. is produced with the help of.

oxygen molecules from the air. they're put through to furnace is where they lose most of their. depending on their intended use they're either carbonized or. carbon content. each fiber is. percent carbon. there's a few more steps to go and that takes us back to the production facilities here at each. plant the carbonized fibers to hold the new production. will be able to churn out six hundred kilograms of. will produce an additional one hundred thirty kilos

a day by two thousand and fifteen this factory could produce two thousand. customers. these materials are designed to be subject to. very thorough testing. the world standard for materials is to sixty to seventy. sixty to seventy thousand various. different kinds of design to check a full range of the materials properties. for those textiles can find their way into some of. the fabrics are turned into what are called which stands for impregnated material they're basically the last intermediate phase before they're ready to be used in a whole host of things in this so-called stage specialized equipment precisely

introduced as. being properly positioned. to the right thing. to be shipped to. china are no doubt attractive markets but nonetheless we mainly focus on russia we monitor external markets for benchmarking purposes such as to work out the pricing or to compare technologies in order to be able to produce a competitive product. tell

you.

if you. had to come here. to produce. the institute manufactures its own uranium targets and. the

facilities here have been turning out over a quarter of a century supplying to just about all of the isotopes that the countries needed up until very recently the institute has produced ninety nine percent of them used in the russian market given the fact that we're essentially dealing with highly enriched uranium there are extremely limited number of places can be produced. we started producing. after that. physics. production. as it reached the end of its service to.

biggest commercial producers the. current supply production is dominated by just a handful of reactors the two largest account for over sixty percent of global demand those two reactors are both over fifty years old and their intended service life when they're eventually decommissioned new suppliers will have to be found several alternatives are being explored including one in russia. especially for isotopes. takes us to where a new look production has been set up late last year a company called isotopes began pumping out the radio at the research institute of atomic reactors to get up to full capacity is already started deliveries to clients like one of the world's leading isotope provide. ensuring reliable deliveries of

molybdenum is so important because it accounts for over eighty percent of all nuclear medicine operations worldwide and here in the meter of grad such a vital issue required a new solution. this technology has not only been reworked in the chemical sense but also in terms of the equipment and in this regard it's a new technology not available anywhere else as far as i'm aware and at the moment we are currently at the production. after the targets are cooled they are transported to hot cells for processing that involves dissolving the whole target in a chemical solution solid residues are filtered out and the is extracted using sailing or ammonium hydroxide here new technology saves time which is important because every hour after about one percent of the isotope is lost to radioactive decay. our production target is eight hundred units today we produced one hundred sixty

there was a shipment yesterday that's the first phase of our production at the same time we continue working on the second stage and expected to reach its design capacity in two thousand and twelve. the output target here is very high about two thousand four hundred juries per week. overall demand is estimated at one hundred. production ramps up doctors should have the topes they need to perform lifesaving diagnostics. to cure what. conditions the radiation by these isotopes can be harnessed to. function. by choosing the appropriate isotope radiation.

can be taken. with christmas presents and with presents comes trash in many countries much of it just. fills the rubbish piles up people are increasingly looking for alternatives. to dispose of trash. every year.

something we. as of today. having reached there. has been an alternative. but they also haven't been without their problems.

much more. eight hundred fifty.

needed to be material. such material. we developed. before. but after searching.

pretty quickly. and. the result. from the control. these extreme temperatures are.

going to help us. with electricity. consumption rates. because.

the first. time. in the past twelve months what we hope to accomplish and the next. like those that recently took part in the fourth. the most important part of the. eight hundred. thirty.

first project which is. the right. typically. given the potential to damage these important parts. and try to strike the right balance between removing. as you can see here previously.

the use of. physical impact. all these methods have several major downsides. production costs and difficulties. we have managed to develop solutions for all of these. developments. which can be easily produced in any of russia's regions only traditional. at the very beginning this is to take advantage of something called the. twenty eight. easily when they come into contact with an active liquid. compressed air is used to accelerate the mixture to.

completely. get rid of the unique here the. pores of the. structure of the target. as well as production units through the complete. we started with design. then produced prototypes we went through the plates and. then we produced three units we made them manually. by the time we go to. commercial production. kind of innovative product. and there's apparently no shortage of interested customers especially in the energy sector. power plants like these serious build up

on important parts can eat into the energy efficiency as well as increase the chance of an accident but moving from cleaning power plants to what we do with electricity is the topic of alexander's most recent creation. for any portable devices such as. tablets laptops is going to be used on travel on trains planes. and users will no longer have to depend on having an electric around or remembering to take the relevant cord with them it will be in the past i think a major potential. manufacturer is. possibly. because switching to producing. is a big competitive advantage on the market. and that's not something that's been lost on many of the world's top makers

a good number of them have teamed up to. there are already a decent number of so-called wireless chargers on the market however at present all of them still require you to place your device on a charging pad and with a separate charger for each device they give you a bit more freedom but our phones are still tied directly to some kind of plugged in charger. there is a number of issues around this solution among them the impact on human health. devices in the vicinity the most important thing here is that we've succeeded. bringing these devices efficiency up to a very high level about eighty five percent and that's not the only thing alexander thinks his wire a charger offers over the competition it can theoretically work with any mobile device but most importantly this russian prototype can top up your battery anywhere around the charger not just on a pad unlike with the others why roll works effectively up to thirty centimeters

away from the base of this device uses the principle of the tesla coil. the energy produced in coral installed inside the mobile device. is equipped with a receiver designed as a stick. we have developed a special feed circuits for the coil which use a very high efficiency facts about eighty five percent of this is achieved through the use of a switch mode power supply unit or the coil in other words while any inductive system goes through the oscillation build up phase in order to build up the energy production in our device there is no buildup as such we start of the process just once and it exonerates through induction we only given hansing impulses once in a while. and your device is still in the project stage what more do you need to do to bring it to the market. to start commercial production of this device we need to meet three requirements first we need to complete the prototype and run it through

all the necessary tests and then make all necessary improvements in changes and produce a pilot batch. second we need to have all the patients registered and we need to set up a technology company in accordance with international standards. within that wireless charger could hit the market sometime soon and we hope that it and the other developments we've showed you today make the future seem well just a little brighter so we'll see you next time and until then enjoy the ride.

question is that so much given to each musician. marc.