Navy Lasers, Railgun, and Gun-Launched Guided Projectile

Navy Lasers, Railgun, and Gun-Launched Guided Projectile

Author: Congressional Service

Publisher: Createspace Independent Publishing Platform

Published: 2018-07-18

Total Pages: 42

ISBN-13: 9781723255861

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The Navy is developing three new ship-based weapons that could improve the ability of Navy surface ships to defend themselves against missiles, unmanned aerial vehicles (UAVs), and surface craft: the Surface Navy Laser Weapon System (SNLWS), the electromagnetic railgun (EMRG), and the gun-launched guided projectile (GLGP), previously known as the hypervelocity projectile (HVP). The Navy refers to the initial (i.e., Increment 1) version of SNLWS as HELIOS, an acronym meaning high-energy laser with integrated optical dazzler and surveillance. EMRG could additionally provide the Navy with a new naval surface fire support (NSFS) weapon for attacking land targets in support of Marines or other friendly ground forces ashore. The Department of Defense is exploring the potential for using GLGP across multiple U.S. military services. Any one of these three new weapons, if successfully developed and deployed, might be regarded as a "game changer" for defending Navy surface ships against enemy missiles and UAVs. If two or three of them are successfully developed and deployed, the result might be considered not just a game changer, but a revolution. Rarely has the Navy had so many potential new types of surface-ship air-defense weapons simultaneously available for development and potential deployment. Although the Navy in recent years has made considerable progress in developing technologies for these new weapons, a number of significant development challenges remain. Overcoming these challenges will require additional development work, and ultimate success in overcoming them is not guaranteed. The issue for Congress is whether to approve, reject, or modify the Navy's funding requests and proposed acquisition strategies for these three potential new weapons. Potential oversight questions for Congress include the following: Using currently available air-defense weapons, how well could Navy surface ships defend themselves in a combat scenario against an adversary such as China that has or could have large numbers of missiles and UAVs? How would this situation change if Navy surface ships in coming years were equipped with SNLWS, EMRG, GLGP, or some combination of these systems? How significant are the remaining development challenges for SNLWS, EMRG, and GLGP? Are current schedules for developing SNLWS, EMRG, and GLGP appropriate in relation to remaining development challenges and projected improvements in enemy missiles and UAVs? When does the Navy anticipate issuing roadmaps detailing its plans for procuring and installing production versions of SNLWS, EMRG, and GLGP on specific Navy ships by specific dates? Will the kinds of surface ships that the Navy plans to procure in coming years have sufficient space, weight, electrical power, and cooling capability to take full advantage of SNLWS and EMRG? What changes, if any, would need to be made in Navy plans for procuring large surface combatants (i.e., destroyers and cruisers) or other Navy ships to take full advantage of SNLWS and EMRGs? Given the Navy's interest in HPV, how committed is the Navy to completing the development of EMRG and eventually deploying EMRGs on Navy ships? Are the funding line items for SNLWS, EMRG, and GLDP sufficiently visible for supporting congressional oversight?


Navy Shipboard Lasers for Surface, Air, and Missile Defense

Navy Shipboard Lasers for Surface, Air, and Missile Defense

Author: Congressional Research Congressional Research Service

Publisher: CreateSpace

Published: 2014-12-23

Total Pages: 60

ISBN-13: 9781505875058

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Department of Defense (DOD) development work on high-energy military lasers, which has been underway for decades, has reached the point where lasers capable of countering certain surface and air targets at ranges of about a mile could be made ready for installation on Navy surface ships over the next few years. More powerful shipboard lasers, which could become ready for installation in subsequent years, could provide Navy surface ships with an ability to counter a wider range of surface and air targets at ranges of up to about 10 miles. The Navy and DOD have conducted development work on three principal types of lasers for potential use on Navy surface ships-fiber solid state lasers (SSLs), slab SSLs, and free electron lasers (FELs). One fiber SSL prototype demonstrator developed by the Navy is the Laser Weapon System (LaWS). The Navy plans to install a LaWS system on the USS Ponce, a ship operating in the Persian Gulf as an interim Afloat Forward Staging Base (AFSB[I]), in the summer of 2014 to conduct continued evaluation of shipboard lasers in an operational setting. The Navy reportedly anticipates moving to a shipboard laser program of record in "the FY2018 time frame" and achieving an initial operational capability (IOC) with a shipboard laser in FY2020 or FY2021. Although the Navy is developing laser technologies and prototypes of potential shipboard lasers, and has a generalized vision for shipboard lasers, the Navy currently does not yet have a program of record for procuring a production version of a shipboard laser. The possibility of equipping Navy surface ships with lasers in coming years raises a number of potential issues for Congress, including the following:


Navy Shipboard Lasers for Surface, Air, and Missile Defense: Background and Issues for Congress

Navy Shipboard Lasers for Surface, Air, and Missile Defense: Background and Issues for Congress

Author:

Publisher:

Published: 2010

Total Pages: 54

ISBN-13:

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Department of Defense (DOD) development work on high-energy military lasers, which has been underway for decades, has reached the point where lasers capable of countering certain surface and air targets at ranges of about a mile could be made ready for installation on Navy surface ships over the next few years. More powerful shipboard lasers, which could become ready for installation in subsequent years, could provide Navy surface ships with an ability to counter a wider range of surface and air targets at ranges of up to about 10 miles. These more powerful lasers might, among other things, provide Navy surface ships with a terminal-defense capability against certain ballistic missiles, including the anti-ship ballistic missile (ASBM) that China is believed to be developing. The Navy and DOD are developing three principal types of lasers for potential use on Navy surface ships-fiber solid state lasers (SSLs), slab SSLs, and free electron lasers (FELs). The Navy's fiber SSL prototype demonstrator is called the Laser Weapon System (LaWS). Among DOD's multiple efforts to develop slab SSLs for military use is the Maritime Laser Demonstration (MLD), a prototype laser weapon developed as a rapid demonstration project. The Navy has developed a lower-power FEL prototype and is now developing a prototype with scaled-up power. These lasers differ in terms of their relative merits as potential shipboard weapons.


Navy Aegis Ballistic Missile Defense (BMD) Program

Navy Aegis Ballistic Missile Defense (BMD) Program

Author: Ronald O'Rourke

Publisher: DIANE Publishing

Published: 2011-05

Total Pages: 63

ISBN-13: 1437932770

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The Aegis BMD program gives Navy Aegis cruisers and destroyers a capability for conducting BMD operations. Under current plans, the number of BMD-capable Navy Aegis ships is scheduled to grow from 20 at the end of FY 2010 to 38 at the end of FY 2015. Contents of this report: (1) Intro.; (2) Background: Planned Quantities of Ships, Ashore Sites, and Interceptor Missiles; Aegis BMD Flight Tests; Allied Participation and Interest in Aegis BMD Program; (3) Issues for Congress: Demands for BMD-Capable Aegis Ships; Demands for Aegis Ships in General; Numbers of SM-3 Interceptors; SM-2 Block IV Capability for 4.0.1 and Higher Versions; (4) Legislative Activity for FY 2011. Charts and tables. This is a print on demand publication.


Directed Energy and Fleet Defense: Implications for Naval Warfare

Directed Energy and Fleet Defense: Implications for Naval Warfare

Author:

Publisher: DIANE Publishing

Published: 2000

Total Pages: 88

ISBN-13: 1428918078

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The introduction of directed energy weapons into twenty-first century naval forces has the potential to change naval tactics as fundamentally as the transition from sail to steam. Recent advances in directed energy technologies have made the development of both high-energy laser and high-power microwave weapons technically feasible. This study examines the potential adaptation of such weapons for the defense of naval forces. This study considers options for using directed energy systems on naval vessels in the context of the U.S. maritime strategy and emerging threats in international politics. The framework for this study is an integrated system of microwave devices, high-energy lasers, and surface-to-air missiles which are evaluated in terms of their ability to enhance anti-ship cruise missile defense, tactical air defense, and fast patrol boat defense. This study also examines collateral capabilities, such as non-lethal defensive measures and countersurveillance operations. The global proliferation of increasingly sophisticated weapons and the expanding demands placed on its ever-smaller navy require the United States to reassess its current approach to fleet operations. This study concludes that directed energy technology has made sufficient progress to warrant the development of sea-based weapons systems for deployment in the first two decades of the next century. For operational and technical reasons, a Nimitz class aircraft carrier may be the preferred platform for the initial implementation of directed energy weapons. If successful, the robust self-defense capability provided by directed energy weapons will permit a fundamental shift in carrier battle group operations from a massed, attrition oriented defense to a more dynamic, dispersed offense.


Navy Shipboard Lasers for Surface, Air, and Missile Defense

Navy Shipboard Lasers for Surface, Air, and Missile Defense

Author: O'Rourke

Publisher: CreateSpace

Published: 2015-01-03

Total Pages: 60

ISBN-13: 9781505412345

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Department of Defense (DOD) development work on high-energy military lasers, which has been underway for decades, has reached the point where lasers capable of countering certain surface and air targets at ranges of about a mile could be made ready for installation on Navy surface ships over the next few years. More powerful shipboard lasers, which could become ready for installation in subsequent years, could provide Navy surface ships with an ability to counter a wider range of surface and air targets at ranges of up to about 10 miles.


Navy's Needs in Space for Providing Future Capabilities

Navy's Needs in Space for Providing Future Capabilities

Author: National Research Council

Publisher: National Academies Press

Published: 2005-07-18

Total Pages: 266

ISBN-13: 0309181208

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The United States must operate successfully in space to help assure its security and economic well being. The Department of the Navy is a major user of space capabilities, although those capabilities are now primarily provided by DOD, the Air Force, and NOAA. Following a DOD assessment of national space security management in 2001, the Navy commissioned a Panel to Review Space to assess Navy space policy and strategy. As an extension of that review, the NRC was requested by the Navy to examine its needs in space for providing future operational and technical capabilities. This report presents a discussion of the strategic framework of future space needs, the roles and responsibilities for meeting those needs, an assessment of Navy support to space mission areas, and a proposed vision for fulfilling Naval forces space needs.


U.S. Navy Program Guide - 2017

U.S. Navy Program Guide - 2017

Author: Department Of the Navy

Publisher: Independently Published

Published: 2019-03-12

Total Pages: 204

ISBN-13: 9781090335104

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The U.S. Navy is ready to execute the Nation's tasks at sea, from prompt and sustained combat operations to every-day forward-presence, diplomacy and relief efforts. We operate worldwide, in space, cyberspace, and throughout the maritime domain. The United States is and will remain a maritime nation, and our security and prosperity are inextricably linked to our ability to operate naval forces on, under and above the seas and oceans of the world. To that end, the Navy executes programs that enable our Sailors, Marines, civilians, and forces to meet existing and emerging challenges at sea with confidence. Six priorities guide today's planning, programming, and budgeting decisions: (1) maintain a credible, modern, and survivable sea based strategic deterrent; (2) sustain forward presence, distributed globally in places that matter; (3) develop the capability and capacity to win decisively; (4) focus on critical afloat and ashore readiness to ensure the Navy is adequately funded and ready; (5) enhance the Navy's asymmetric capabilities in the physical domains as well as in cyberspace and the electromagnetic spectrum; and (6) sustain a relevant industrial base, particularly in shipbuilding.


Chinese Anti-Ship Ballistic Missile (ASBM) Development

Chinese Anti-Ship Ballistic Missile (ASBM) Development

Author: Andrew S. Erickson

Publisher: Brookings Institution Press

Published: 2016-08-02

Total Pages: 160

ISBN-13: 0985504587

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China’s anti-ship ballistic missile (ASBM), the DF-21D, has reached the equivalent of Initial Operational Capability. Although it probably has been deployed in small numbers, additional challenges and tests remain. This study examines the ASBM’s capability and history, showing how the DF-21D meets multiple priorities in Chinese defense modernization and in the national security bureaucracy, as well its implications for the United States. The ASBM’s physical threat to U.S. Navy ships will be determined by the development of associated systems and organizations, which currently limit data fusion and coordination in the complex task of identifying a U.S. aircraft carrier in the open ocean. Still, the ASBM poses a direct threat to the foundations of U.S. power project in Asia and will undermine the U.S. position, unless efforts to counter its political-military effects are taken.