ни одна гада не взлетит, а будет мгновенно расплавлена лучом смерти из космоса!
Оригинал взят у golos_dobra в ни одна гада не взлетит, а будет мгновенно расплавлена лучом смерти из космоса!
HIGH ENERGY LASER PROPAGATION IN VARIOUS ATMOSPHERIC
CONDITIONS UTILIZING A NEW, ACCELERATED SCALING CODE
Chris R. Fussman
Ensign, United States Navy
B.S., United States Naval Academy, 2013
Submitted in partial fulfillment of the
requirements for the degree of
MASTER OF SCIENCE IN APPLIED PHYSICS
from the
NAVAL POSTGRADUATE SCHOOL
June 2014
The results of ANCHOR studies will indicate that the 100 kW-class high energy
laser can effectively engage slow-moving targets at ranges greater than five kilometers in
clear weather by delivering enough energy to melt 0.1 liters of one millimeter-thick
aluminum aircraft skin in five seconds. For hazy, turbulent, and rainy conditions, the
laser can effectively engage targets from ranges closer than three kilometers, but
reasonable dwell times are only achieved for ranges closer than two kilometers.
Laser lethality, defined as “the capability of a weapon system to render a target
non-functional,” greatly depends on the target material the amount of power
transmitted to the target. Thermal damage is considered to be the main lethality
mechanism for lasers, resulting in the burning, melting, penetration or structural integrity
failure of the target. For typical targets, such as the carbon-carbon ceramic nosecone
of a surface-to-air missile (SAM), an estimated 12.1 kilowatts (kW) of power over a
dwell time of 4 seconds is required to ablate a depth of 1.0 cm on the target. While a
laser emitting such an output power level may not appear to be powerful enough to
neutralize a missile traveling at Mach 3.0, a DE weapon of three-times the power and
dwell time of the example may very well cause enough structural damage to “bring about
catastrophic aerodynamic instability which would tear the missile apart”
ADVANTAGES OF HELS
ADVANTAGES OF HELS
ADVANTAGES OF HELS
due to the speed of light delivery of
damage, a directed energy weapon has the potential of engaging and destroying a target
soon after it is detected, whereas munitions from a conventional weapon must travel
toward the target at a much slower rate and thus engage it at a close range
DE weapons systems are comprised of all-electric components, and complete
integration into a naval ship’s power grid provides for a magazine potentially limited
only by the ship’s power.
optical waveguides in fiber lasers span many meters in length,
providing a much larger surface area that allows for easier cooling than a slab laser.
While such advantages indicate that the fiber SSL is a theoretically superior technology
to the slab SSL, the latter has actually demonstrated higher output power with the ∼105
kW of the MLD, as opposed to the ∼33 kW fiber SSL LAWS
The missions of a DE weapon are largely dependent on its output power level.
Directed energy weapons with lower power output (10-100 kW), such as the SSL, are
better suited against slower moving targets, such as small watercraft and aircraft. Such
DE weapons could immobilize boats and down aerial drones, as well as offer the
potential of “soft kills” by blinding incoming missiles. Megawatt-class DE weapons, such
as the FEL, will be primarily slated for cruise missile defense. The current FEL DOD
project, the Innovative Naval Prototype, maintains a planned 100 kW of output power
and is a stepping stone in the future transition to the MW-class devices.
The HEL weapons systems of both kW and MW-class could be fittingly
employed on several naval platforms, such as the future all-electric ships, littoral combat
ships (LCS), guided-missile destroyers (DDG-51 and DDG-1000), and the future Ford
class aircraft carriers, such as the Gerard R. Ford (CVN-78).
Ликбез.
Красной линией отмечена требуемая мощность на цели для ПОЛНОГО УНИЧТОЖЕНИЯ
любой нужной цели. Все что выше годится для ПОЛНОГО УНИЧТОЖЕНИЯ.
Идет дождь для большей ясности.
По оси иксов длина волны излучения ЛУЧЕВОГО ОРУЖИЯ.
Наиболее популярны сейчас системы в районе, отмеченном цифрой 1 (один).
Мощность ИЗЛУЧАТЕЛЯ ЛУЧЕЙ стандартная, уже в наличии, больше мощности уже и не нужно на самом деле - все,
достаточно. Системы доведены до такого технического совершенства, что у любого знающего
все фуфло, которое советские монстры типа ГОИ, "Астрофизика" и прочие пытались всучить
советскому ВПК, просто отвисает челюсть при виде как оно сейчас в железе работает.
Короче, на 3 км и ближе гарантировано уничтожение.
С неограниченным причем боезапасом, можете хоть тыщу миллионов гранитов ваших допотопных
слать - пофиг все, все пшикнет в волны, не пройдя невидимый ИНФРАКРАСНЫЙ ЩИТ наших галактических
звездолетов.
Это куб Боргов против даже не в панике бегущего капитана Пикарда, это куб Боргов
против туземцев Австралии с кремниевыми топорами.
Да, ну и само собой, для более интересных приложений, где требуемая мощность может быть на порядки
ниже, там и с бортовых космических систем не вопрос на десятки километров через любые тучи и турбулентность
вызвать желаемый эффект МГНОВЕННО еще даже до зарождения самой мысли в глупом мозгу
аборигена нажать какую-нибудь кнопку.
Об том мы с вами в открытом эфире разговаривать не будем.
HIGH ENERGY LASER PROPAGATION IN VARIOUS ATMOSPHERIC
CONDITIONS UTILIZING A NEW, ACCELERATED SCALING CODE
Chris R. Fussman
Ensign, United States Navy
B.S., United States Naval Academy, 2013
Submitted in partial fulfillment of the
requirements for the degree of
MASTER OF SCIENCE IN APPLIED PHYSICS
from the
NAVAL POSTGRADUATE SCHOOL
June 2014
The results of ANCHOR studies will indicate that the 100 kW-class high energy
laser can effectively engage slow-moving targets at ranges greater than five kilometers in
clear weather by delivering enough energy to melt 0.1 liters of one millimeter-thick
aluminum aircraft skin in five seconds. For hazy, turbulent, and rainy conditions, the
laser can effectively engage targets from ranges closer than three kilometers, but
reasonable dwell times are only achieved for ranges closer than two kilometers.
Laser lethality, defined as “the capability of a weapon system to render a target
non-functional,” greatly depends on the target material the amount of power
transmitted to the target. Thermal damage is considered to be the main lethality
mechanism for lasers, resulting in the burning, melting, penetration or structural integrity
failure of the target. For typical targets, such as the carbon-carbon ceramic nosecone
of a surface-to-air missile (SAM), an estimated 12.1 kilowatts (kW) of power over a
dwell time of 4 seconds is required to ablate a depth of 1.0 cm on the target. While a
laser emitting such an output power level may not appear to be powerful enough to
neutralize a missile traveling at Mach 3.0, a DE weapon of three-times the power and
dwell time of the example may very well cause enough structural damage to “bring about
catastrophic aerodynamic instability which would tear the missile apart”
ADVANTAGES OF HELS
ADVANTAGES OF HELS
ADVANTAGES OF HELS
due to the speed of light delivery of
damage, a directed energy weapon has the potential of engaging and destroying a target
soon after it is detected, whereas munitions from a conventional weapon must travel
toward the target at a much slower rate and thus engage it at a close range
DE weapons systems are comprised of all-electric components, and complete
integration into a naval ship’s power grid provides for a magazine potentially limited
only by the ship’s power.
optical waveguides in fiber lasers span many meters in length,
providing a much larger surface area that allows for easier cooling than a slab laser.
While such advantages indicate that the fiber SSL is a theoretically superior technology
to the slab SSL, the latter has actually demonstrated higher output power with the ∼105
kW of the MLD, as opposed to the ∼33 kW fiber SSL LAWS
The missions of a DE weapon are largely dependent on its output power level.
Directed energy weapons with lower power output (10-100 kW), such as the SSL, are
better suited against slower moving targets, such as small watercraft and aircraft. Such
DE weapons could immobilize boats and down aerial drones, as well as offer the
potential of “soft kills” by blinding incoming missiles. Megawatt-class DE weapons, such
as the FEL, will be primarily slated for cruise missile defense. The current FEL DOD
project, the Innovative Naval Prototype, maintains a planned 100 kW of output power
and is a stepping stone in the future transition to the MW-class devices.
The HEL weapons systems of both kW and MW-class could be fittingly
employed on several naval platforms, such as the future all-electric ships, littoral combat
ships (LCS), guided-missile destroyers (DDG-51 and DDG-1000), and the future Ford
class aircraft carriers, such as the Gerard R. Ford (CVN-78).
Ликбез.
Красной линией отмечена требуемая мощность на цели для ПОЛНОГО УНИЧТОЖЕНИЯ
любой нужной цели. Все что выше годится для ПОЛНОГО УНИЧТОЖЕНИЯ.
Идет дождь для большей ясности.
По оси иксов длина волны излучения ЛУЧЕВОГО ОРУЖИЯ.
Наиболее популярны сейчас системы в районе, отмеченном цифрой 1 (один).
Мощность ИЗЛУЧАТЕЛЯ ЛУЧЕЙ стандартная, уже в наличии, больше мощности уже и не нужно на самом деле - все,
достаточно. Системы доведены до такого технического совершенства, что у любого знающего
все фуфло, которое советские монстры типа ГОИ, "Астрофизика" и прочие пытались всучить
советскому ВПК, просто отвисает челюсть при виде как оно сейчас в железе работает.
Короче, на 3 км и ближе гарантировано уничтожение.
С неограниченным причем боезапасом, можете хоть тыщу миллионов гранитов ваших допотопных
слать - пофиг все, все пшикнет в волны, не пройдя невидимый ИНФРАКРАСНЫЙ ЩИТ наших галактических
звездолетов.
Это куб Боргов против даже не в панике бегущего капитана Пикарда, это куб Боргов
против туземцев Австралии с кремниевыми топорами.
Да, ну и само собой, для более интересных приложений, где требуемая мощность может быть на порядки
ниже, там и с бортовых космических систем не вопрос на десятки километров через любые тучи и турбулентность
вызвать желаемый эффект МГНОВЕННО еще даже до зарождения самой мысли в глупом мозгу
аборигена нажать какую-нибудь кнопку.
Об том мы с вами в открытом эфире разговаривать не будем.