CRS报告 IF11882国防初级读本—定向能武器

VIP文档

ID:24702

大小:0.55 MB

页数:3页

时间:2022-11-30

金币:2

上传者:战必胜
https://crsreports.congress.gov
Updated November 14, 2022
Defense Primer: Directed-Energy Weapons
Both the 2022 National Defense Strategy and the House
Armed Services Committee’s bipartisan Future of Defense
Task Force Report have identified directed energy as a
technology that could have a significant impact on U.S.
national security in the years to come. As the Department of
Defense (DOD) continues to invest in directed-energy (DE)
weapons, Congress may consider implications for defense
authorizations, appropriations, and oversight.
Overview
DOD defines DE weapons as those using concentrated
electromagnetic energy, rather than kinetic energy, to
“incapacitate, damage, disable, or destroy enemy
equipment, facilities, and/or personnel.” DE weapons
include high-energy lasers (HEL) and high-powered
microwave (HPM) weapons; other DE weapons, such as
particle beam weapons, are outside the scope of this In
Focus.
HELs might be used by ground forces in short-range air
defense (SHORAD), counter-unmanned aircraft systems
(C-UAS), or counter-rocket, artillery, and mortar (C-RAM)
missions. The weapons might be used to “dazzle” (i.e.,
temporarily disable) or damage satellites and sensors. This
could in turn interfere with intelligence-gathering
operations; military communications; and positioning,
navigation, and timing systems used for weapons targeting.
In addition, HELs could theoretically provide options for
boost-phase missile intercept, given their speed-of-light
travel time; however, experts disagree on the affordability,
technological feasibility, and utility of this application.
In general, HELs might offer lower costs per shot and
assuming access to a sufficient power supplydeeper
magazines compared with traditional munitions. (Although
a number of different types of HELs exist, many of the
United States’ current programs are solid state lasers, which
are fueled by electrical power. As a result, the cost per shot
is equivalent to the cost of the electrical power required to
fire the shot.) This could in turn produce a favorable cost-
exchange ratio for the defender, whose marginal costs
would be significantly lower than those of the aggressor.
Similarly, HPM weapons could provide a nonkinetic means
of disabling adversary electronics and communications
systems. These weapons could potentially generate effects
over wider areas than HELs, which emit a narrower beam
of energy. As a result, some analysts have noted that HPM
weapons might provide more effective area defense against
missile salvos and swarms of drones. HPM weapons have
also been considered for use as nonlethal “heat ray”
systems for crowd control.
Directed-Energy Weapons Programs
A number of countries are investing in directed-energy
weapons programs. This In Focus discusses a selection of
unclassified DE weapons programs in three leading military
powers: the United States, China, and Russia.
United States
The DOD has a number of DE development programs
underway, requesting at least $669 million in FY2023 for
unclassified DE research, development, test, and evaluation
(RDT&E) and at least $345 million for unclassified DE
weapons procurement. For additional information about
specific U.S. DE weapons programs, see CRS Report
R44175, Navy Lasers, Railgun, and Gun-Launched Guided
Projectile: Background and Issues for Congress, by Ronald
O'Rourke, and CRS Report R45098, U.S. Army Weapons-
Related Directed Energy (DE) Programs: Background and
Potential Issues for Congress, by Andrew Feickert.
DOD directed energy programs are coordinated by the
Principal Director for Directed Energy within the Office of
the Under Secretary of Defense for Research and
Engineering (OUSD[R&E]). The Principal Director for
Directed Energy is additionally responsible for
development and oversight of the Directed Energy
Roadmap. According to OUSD(R&E), DOD’s current DE
roadmap outlines DOD’s plan to increase power levels of
DE weapons from around 150 kilowatts (kWa unit of
power), as is currently feasible, to 300 kW by FY2023,
“with goal milestones to achieve 500 kW class with
reduced size and weight by FY2025 and to further reduce
size and weight and increase power to MW [megawatt]
levels by FY2026.” For reference, although there is no
consensus regarding the precise power level that would be
needed to neutralize different target sets, some analysts
believe that lasers of around 100 kW could engage
unmanned aircraft systems, small boats, rockets, artillery,
and mortars, whereas lasers of around 300 kW could
additionally engage cruise missiles flying in certain profiles
(i.e., flying acrossrather than atthe laser). Lasers of 1
MW could potentially neutralize ballistic missiles and
hypersonic weapons.
In addition to the DE roadmap, OUSD(R&E) manages the
High Energy Laser Scaling Initiative (HELSI), which
former Principal Director for Directed Energy Dr. Jim
Trebes notes is “to demonstrate laser output power scaling
while maintaining or improving beam quality and
efficiency.” HELSI is intended to strengthen the defense
industrial base for potential future directed energy weapons
by providing near-term prototyping opportunities for
industry partners. Dr. Trebes additionally notes that
OUSD(R&E) has completed a DOD-wide Laser Lethality
Analysis Process Review to identify future needs for the
资源描述:

当前文档最多预览五页,下载文档查看全文

此文档下载收益归作者所有

当前文档最多预览五页,下载文档查看全文
温馨提示:
1. 部分包含数学公式或PPT动画的文件,查看预览时可能会显示错乱或异常,文件下载后无此问题,请放心下载。
2. 本文档由用户上传,版权归属用户,天天文库负责整理代发布。如果您对本文档版权有争议请及时联系客服。
3. 下载前请仔细阅读文档内容,确认文档内容符合您的需求后进行下载,若出现内容与标题不符可向本站投诉处理。
4. 下载文档时可能由于网络波动等原因无法下载或下载错误,付费完成后未能成功下载的用户请联系客服处理。
关闭