DragonFire | Next Generation Laser | Dstl

preview_player
Показать описание
The UK @UKMinistryofDefence #Defence Science and #Technology Laboratory (Dstl) has hosted the UK’s first high-powered, long-range #Laser Directed Energy Weapon (LDEW) trial on its ranges at Porton Down.

The trials involve firing the UK #DragonFire demonstrator at a number of targets over a number of ranges, demanding pinpoint accuracy from the beam director.

The trial improves the UK’s understanding of how high-energy lasers and their associated technologies can operate over distance and defeat representative targets. The ability to deliver high levels of laser power with sufficient accuracy are two of the major areas that need to be demonstrated in order to provide confidence in the performance and viability of LDEW systems.

The programme has developed a UK Sovereign ‘Centre of Excellence’ staffed with experts from multiple fields. LDEW have the potential to provide lower cost lethality, reduced logistical burden and increased effectiveness when compared to other weapon systems – the technology could have a huge effect on the future of Defence operations.”

The programme’s specialist industry partners are:

• @MBDA with overall responsibility for the system and have developed the advanced command and control (C2) and image processing capabilities;
• @Leonardo who have developed the Beam Director which can track and point at targets with pin-point accuracy;
• @QinetiQ laser experts who have built a phase-combined laser capable of generating in the order of 50kW of power; with the ability in the future to scale fire-power levels

Dstl’s Technical Partner, Ben, said:

“This trial is the culmination of design, development and demonstration activity over a number of years. DragonFire has already successfully demonstrated an ability to track targets with very high levels of precision and to maintain a laser beam on the selected aim-point. This trial has assessed the performance of the laser itself – the outcome shows that the UK has world-leading capability in the technologies associated with Laser Directed Energy Weapons (LDEW) systems.”
Chris Allam, UK Managing Director and Executive Group Director of Engineering at MBDA said:

“These successful trials are the latest step in accelerating delivery of a UK sovereign laser directed energy weapon (LDEW) capability. MBDA, Leonardo, Qinetiq and Dstl all working together are putting the UK at the forefront of research & technology in laser domain. The results from these trials have verified analysis and given the team confidence that DragonFire will offer a near term and unique capability.”

The trial is the culmination of significant joint investment by the UK MOD and industry over a number of years totalling in the order of £100 million.

Mark Hamilton, Managing Director Electronics UK, Leonardo said:

“The DragonFire project draws on our decades of high energy laser and beam director heritage to put the UK at the very forward edge of what is possible in laser technology. The results of this live trial, which saw our beam director integrated into the DragonFire system, were impressive. We are looking forward to the next stages of the programme.”

QinetiQ Chief Executive, Steve Wadey, added:

“We are delighted to have been involved in the trial, which has brought together the best of UK industry expertise in the complex weapons environment to work in close collaboration with Dstl. QinetiQ’s coherent beam-combining technology offers a laser system that can achieve an enhanced power density and increased engagement range, that is scalable for future uses. The trial has proven the performance of these laser technologies and their potential for adoption in Sovereign Defence Capabilities.”

Dstl is a proven national asset, giving the UK clear advantage across science, technology, cyber and information.

We offer world-class science and technology capability allied to inside knowledge and government savvy, and underpinned by deep operational understanding of defence and security needs.

This enables us to demystify and harness science and technology to give clear military and security advantage through impartial advice and solutions – to innovate the science inside UK defence and security.
Рекомендации по теме
Комментарии
Автор

I was amazed to see that they are using a Meade telescope. Normally used for looking at the universe, so this is a pretty large diversion!

TonyAbbey
Автор

We want to see explosions, thank you.

robbiew
Автор

Is that what to use on the one island of Hawaii?

Garret-ndpx
Автор

they are building terminator with big laser guns

mrckCRO
Автор

Were I the MOD I would be asking questions :
1> How much does it cost per shot to fire a conventional version of a munition?
2> How much is it for a laser based version?
3> Given 2 is cheaper than 1 why can I trust the defence contractors to not bullshit me when it's in their interest to sell me more?

Phil_AKA_ThundyUK
Автор

Csn they simply demonstrate how it can destroy a pilotless aeroplane?

josephwong
Автор

This looks very expensive, skilled maintenance and operation . I assume some other more basic weapon will have to be removed from any warship so fitted \/

peterhulme
Автор

Disons que vous avez abattu un laser d'un missile russe poignard. Comment allez-vous arrêter la fusée Poséidon? Elle peut aussi tirer sous l'eau?

helgdestadganzen
Автор

Looks like we'll need to build more nuclear powered ships then!

Pedrovarni
Автор

Nice! Probably doesn't work if the missile is spinning though(?). The laser needs to create a hotspot, so any rotation of the missile body and it won't work.

misterG
Автор

Please don't use materials that our laser cannot penetrate. Thank you!

O--
Автор

Haha! So old and dated. No progress in 20 years then. Show us your laser destroying a supersonic incoming missile....air to ground, air to air, ground to air or even a ballistic heavyweight with multiple nuclera warheads (mock warheads please). Sea Slug a hundred years ago destroyed an Exocet in flight, just saying.

lizzietaylor