Sep 4, 2007

Administration Increases Submarine Nuclear Warhead Production Plan

By Hans M. Kristensen
[Photo: The slim Mk4A reentry body for the W76-1 warhead. The administration plans to produce 2,000 between 2007 and 2021.]

The Bush administration has decided to more than double the number of nuclear warheads undergoing an expensive upgrade for potential future deployment on the Navy’s 14 ballistic missile submarines, according to answers provided by the National Nuclear Security Administration in response to questions from the Federation of American Scientists.

The decision preempts a debate in Congress about how the United States should size its future nuclear weapons arsenal.

The upgrade concerns the W76, the most numerous warhead in the U.S. nuclear weapons stockpile. The Clinton administration decided to upgrade 25 percent, but the Bush administration’s Nuclear Posture Review (NPR) in 2001 recommended that significantly more warheads had to be upgraded. An assessment completed by the Department of Defense in 2005 increased the plan to 63 percent of the W76 stockpile, corresponding to an estimated 2,000 warheads.

More than just a refurbished weapon, official sources indicate, the new weapon will have significantly increased military capabilities against hard targets.

Expansion of the W76 Life Extension Program

The W76 Life Extension Program (LEP) was initially approved in March 2000, when the Nuclear Weapons Council approved life-extension of approximately 800 W76s (Block 1). The decision whether to proceed with Block 2 and how many W76s to life-extend in total was deferred. Block 1 completion was initially set for 2012, but in subsequent DOE budget requests the W76 LEP completion date gradually began to slide: 2013 in the FY 2005 request; 2017 in the FY 2006 request; 2020 in the FY 2007 budget request; and most recently 2021 in the FY 2008 request. It was this slide that in May prompted FAS to submit questions to the National Nuclear Security Administration (NNSA).

The NNSA letter explains that DOD requirements before 2001 called for 25 percent of the W76 stockpile to be life-extended, or approximately 800 of the roughly 3,200 W76 warheads estimated to be in the stockpile at the time. But the Bush administration's 2001 Nuclear Posture Review "resulted in plans to refurbish a significantly greater quantity." The NPR was implemented by the March 2003 Nuclear Posture Review Implementation Plan, a 26-page document that instructed government agencies which parts of the NPR they must implement and when. Finally, the "most recent classified [W76 LEP]Selected Acquisition Report estimate is for a planned refurbishment of 63 percent of the stockpile," according to NNSA.

Estimated W76-1 Production 2007-2021
The Bush administration's plan to life-extend 63 percent of the W76 stockpile requires production of approximately 2,000 W76-1 warheads between 2007 and 2021. Authorization to produce the Reliable Replacement Warhead (RRW) from 2014 could affect the second half of the plan.
The 63 percent requirement (roughly 2,000 warheads) contained in the 2007 W76 LEP Selected Acquisition Report was set, the NNSA letter reveals, by the Strategic Capabilities Assessment, a review completed in 2005 in preparation for the Quadrennial Defense Review by the DOD of the assumptions used for the 2001 NPR. The DOD Assessment concluded that "the NPR’s planning assumptions remain valid, although conditions are trending toward − if anything − a more stressing strategic landscape, for example, with respect to North Korea, Iran and nuclear proliferation."

The W76-1/Mk4A

Approximately 3,250 W76 warheads were produced between 1978 and 1988. The weapons armed the Poseidon C3 and Trident I C4 and currently the Trident II D5 missiles (together with about 400 W88 warheads). A modified W76 also arms Trident II missiles on British submarines. With the service life limit of the oldest units approaching, the Clinton administration in the late 1990s ordered a W76 Life Extension Program (LEP) to extend the service life for another 30 years. Major milestones for the program are:
W76-1/Mk4A Production Milestones
  • Aug 1998: W76-1/Mk4A Phase 6.2/2A Study authorized by Nuclear Weapons Council (NWC).
  • Oct 1998: Joint DOD/DOE W76-1/Mk4A Phase 6.2/2A Study initiated.
  • FY 1999: W76 hydro-dynamic tests conducted.
  • Mar 1999: NWC approves entry into W76-1/Mk4A Phase 6.3.
  • Feb 2000: W76-1/Mk4A Phase 6.2 warhead design options developed.
  • Mar 2000: NWC approves Block 1 refurbishment plan for W76 LEP.
  • Apr 2000: W76-1/Mk4A cost estimates developed.
  • Jul 2000: W76-1/Mk4A Phase 6.3 DOD/DOE Kickoff.
  • Dec 11, 2002: First test flight of the W76-1/Mk4A RV on Trident II D5 launched from USS Nevada.
  • Apr 2003: W76-1/Mk4A with new arming/fusing subsystem (AFS) test flown on Trident II from USS Maine.
  • Nov 10, 2004: First development test of W76-1 JTA1 AF&F (Arming, Fuzing & Firing) and telemetry launched from USS Nevada.
  • 2005: The DOD Strategic Capabilities Assessment sets a W76 LEP requirement of 63 percent of W76 stockpile.
  • Dec 9, 2005: Second development test of W76-1 JTA1 AF&F and telemetry launched from USS Rhode Island.
  • Nov 21, 2006: Third and final development test of W76-1 JTA1 AF&F and telemetry launched from USS Maryland.
  • Sep 2007: First production unit of W76-1/Mk4A to be delivered.
  • FY 2012: W76-1/Mk4A Block 1 production scheduled for completion.
  • FY 2021: W76-1/Mk4A LEP scheduled for completion.
The W76 LEP creates a modified warhead called the W76-1. The cone-shaped Mk4 reentry body designed to protect the warhead against the heat created by the fiery reentry through the earth's atmosphere will also be modified; the new reentry body is called the Mk4A. The W76 LEP is a major overhaul of the warhead that involves changes to both the reentry body and the warhead package: Replacing "organics" in the primary; replacing detonators; replacing chemical high explosives; refurbishing the secondary; adding a new Arming, Fuzing & Firing (AF&F) system, a new gas reservoir, a new gas transfer support system, a new lightning arrestor connector (LAC) (see Sandia National Laboratories drawing below).

W76 Life Extension Program Components
The W76 LEP includes significant changes to the both the W76 warhead and the Mk4A reentry body. Guide: AF&F, Arming, Fuzing & Firing; CHE, Chemical High Explosives; CSA, Canned Secondary Assembly; Dets, detonators; GTS, Gas Transfer System; LAC, Lightning Arrestor Connector; LANL, Los Alamos National Laboratory; LMMS, Lockheed Martin Missiles & Space; SNL, Sandia National Laboratories.
Boosting Hard Target Kill Capability

Government documents and statements by government officials hint that the W76 LEP is quietly creating a weapon with significantly improved military capability over the old version. Whereas the old fuze only permitted targeting of soft targets, the new MC4700 Arming, Fuzing and Firing (AF&F) system gives the W76 hard target kill capability for the first time. The former head of the navy's Strategic Systems Program, Rear Admiral George P. Nanos, who later became the Director of Los Alamos National Laboratory which designed the W76, explained in an article inThe Submarine Review in April 1997 that the "capability for the [existing] Mk4…is not very impressive by today’s standards, largely because the Mk4 was never given a fuze that made it capable of placing the burst at the right height to hold other than urban industrial targets at risk." But "with the accuracy of D5 and Mk4, just by changing the fuse in the Mk4 re-entry body, you get a significant improvement,” Nanos stated. In fact, "the Mk4, with a modified fuze and Trident II accuracy, can meet the original D5 hard target requirement."

The MC4700 Arming, Fuzing & Firing System

[Photo: The new MC4700 Arming, Fuzing and Firing system developed for the W76-1/Mk4A will enable the warhead to take advantage of the accuracy of the Trident II D5 missile to "meet the original D5 hard target requirement."]

The added capability is normally not highlighted in official presentations of the W76 LEP. Yet the purpose of developing a new AF&F system on the W76-1/Mk4A, according to the Department of Energy’s 1997 Stockpile Stewardship and Management Plan (excerpt), is to "enable [the] W76 to take advantage of [the] higher accuracy of the D5 missile."

There are two reasons for increasing the accuracy. First, the previous hard target kill missile – the Peacekeeper ICBM – was withdrawn from operational service in 2005, and the modernized Minuteman III apparently has not been able to achieve the same degree of accuracy. Second, as the number of weapons in the nation’s arsenal is reduced, the ones remaining must be more flexible and capable of holding a wider range of targets than before.

With "advanced fuzing options" the AF&F system will allowing targeteers to set the Height of Burst (HOB) more accurately and significantly improve the ability to hold hard targets at risk. Because 63 percent of the W76 stockpile is being added the new fuze, if Admiral Nanos is correct, the U.S. inventory of reentry vehicles with hard target kill capability will increase from 400 today to 2,400 in 2021.

Sizing the Arsenal

The disclosure of the 63 percent number adds new information about how the administration envisions the structure of the future nuclear arsenal. Under the SORT agreement signed with Russia in 2002, no more than 2,200 strategic warheads may be operationally deployed by 2012. Yet the total stockpile will be significantly larger, about two and a half times, and include an estimated 5,467 warheads.

The W76 Reentry Vehicle
[Photo: The government has only recently begun to show pictures of the W76 reentry vehicle. Los Alamos National Laboratory has published a drawing of a W76 interior layout (left), and Sandia National Laboratories has published photographs of the Mk4A reentry body (right).]

Under SORT, the Navy plans to deploy up to an estimated 1,150 warheads on 12 ballistic missile submarines (an average of four warheads per missile). Another two submarines will normally be in overhaul. Approximately 750 of the warheads will be W76-1 with the balance made up by the more powerful W88 warheads. Because SORT doesn't set limits on reserve warheads or regulate how Russia and the United States can distribute their nuclear weapons below the ceiling, most of the planned W76-1 warheads will not be deployed but kept in storage as a "hedge" against a nuclear-armed adversary suddenly increasing its nuclear arsenal. The 63 percent production plan suggests that the administration wants to retain the capability to increase the warhead loading to as much as eight warheads per missile, the same number it deployed during the Cold War. Another reason for retaining spare W76 warheads is to have replacement warheads in case of technical failure of deployed warheads.

The administration has proposed to replace some of the W76s with the Reliable Replacement Warhead (RRW-1) to increase the "diversity" of the type of warheads at sea. If Congress approves RRW-1 production, the second half of the 76-1 production plan would probably be changed to RRW-1 warheads beginning (under current plans) in 2014, in which case the future sea-based posture would be made up of a mix of W76-1, W88 and RRW-1 warheads.

In Congress both the Senate and House have called for a review of U.S. nuclear policy to ensure the right size and role of the nuclear posture. The 63 percent W76-1 production set by the 2005 Strategic Capabilities Assessment would appear to preempt that effort.

4 comments:

  1. RRW is dead. W76-1 pretty much kills the whole concept. The only argument left for funding RRW is to use it as an exercise for keeping nuclear weapons designers actively employeed at their craft. However, if design criteria for US nuclear weapons has been sufficiently captured in documentation, then US scientists and defense industry contractors will be able to reconstitute nuclear weapons production at a later date, if needed. If the information has not been sufficiently captured in explicit documentation, then NNSA and the weapons design community have been severely deficient in their duties to US national security.

    With almost any angle you look at it, RRW and Complex 2030 are a big waste of taxpayer money that can be better employed at other more pressing defense needs.

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  2. Agreed, there is no need for RRW. The least expensive and perfectly reasonable way to keep some nuclear weapons expertise around is to test one or two in Nevada every four or five years. Or, every fifteen years, since that's how long it's been now.

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  3. Poster 8:47 am, your idea isn't that far-fetched. Lots of nuclear powers would like to make sure their old nukes still work. How about an international agreement that allows the nuclear nations to make 2 test (under 150 Kton) every decade. Only the old designs could be tested. This would help relieve the worries and actually make the world safer, as there would be less push for the development of newer nukes, ala RRW.

    Sounds rational to me.

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  4. A return to limited testing makes sense to me. Not a perfect solution but perhaps the best one. I would like to see the idea developed further rather than summarily rejected.

    ReplyDelete

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