Äîêóìåíò âçÿò èç êýøà ïîèñêîâîé ìàøèíû. Àäðåñ îðèãèíàëüíîãî äîêóìåíòà : http://www.stsci.edu/institute/stuc/april-2012/new-horizons.pdf Äàòà èçìåíåíèÿ: Unknown Äàòà èíäåêñèðîâàíèÿ: Tue Feb 5 06:00:51 2013 Êîäèðîâêà: Ïîèñêîâûå ñëîâà: ï ï ï ï ï ï ï ï ï ï ï ï

New Horizons Pluto/KBO Mission
Impact Hazard
Hal Weaver NH Project Scientist The Johns Hopkins University Applied Physics Laboratory


Outline
· Background on New Horizons mission · Description of Impact Hazard problem · Impact Hazard mitigation
­ Hubble Space Telescope plays a key role


New Horizons: To Pluto and Beyond
The Initial Reconnaissance of The Solar System's "Third Zone"

KBOs 2016-2020

Pluto-Charon July 2015

Jupiter System Feb-March 2007

Launch Jan 2006

PI: Alan Stern (SwRI) PM: JHU Applied Physics Lab New Horizons is NASA's first New Frontiers Mission


Frontier of Planetary Science
Explore a whole new region of the Solar System we didn't even know existed until the 1990s Pluto is no longer an outlier!

Pluto System is prototype of KBOs
New Horizons gives the first close-up view of these newly discovered worlds


New Horizons Now (overhead view)


NH Spacecraft & Instruments
2.1 meters
Science Team: PI: Alan Stern Fran Bagenal Rick Binzel Bonnie Buratti Andy Cheng Dale Cruikshank Randy Gladstone Will Grundy Dave Hinson Mihaly Horanyi Don Jennings Ivan Linscott Jeff Moore Dave McComas Bill McKinnon Ralph McNutt Scott Murchie Cathy Olkin Carolyn Porco Harold Reitsema Dennis Reuter Dave Slater John Spencer Darrell Strobel Mike Summers Len Tyler Hal Weaver Leslie Young


Pluto System Science Goals Specified by NASA or Added by New Horizons


New Horizons Resolution on Pluto
(Simulations of MVIC context imaging vs LORRI high-resolution "noodles")

0.1 km/pix

The Best We Can Do Now

0.6 km/pix

HST/ACS-PC: 540 km/pix


New Horizons Science Status
· New Horizons is on track to deliver the goods
­ The science objectives specified by NASA and the Planetary Community should be achieved, or exceeded
· Nix, Hydra, and P4 added (new discoveries) · More data collected than originally anticipated (~7x larger) · Only exception is direct measurement of Pluto's magnetic field, which was a Group 3 objective

­ Robust timeline with built-in redundancy to ensure success

· Rehearsal of 22 hr flyby segment in 2012 ("stress test") · Rehearsal of entire P-7 to P+2 "Core Load" in 2013

*All systems are GO. Potential Impact Hazard is main concern at this time.


New Satellites: Good and Bad
Hubble: May 2005 Hubble: Jun 2011 Quintuple System

Five for the price of one, but with strings attached. Where there are small satellites, there will be debris. A collision between mm-sized particles and the NH spacecraft moving at ~14 km/s could result in a loss of mission.


Potential Hazard for New Horizons
· The discovery of multiple satellites in the system raises the concern that debris associated with those satellites might pose a risk to the New Horizons spacecraft as it passes through the Pluto system.


Pluto Encounter Geometry
The blue plane depicts the ecliptic.

The NH spacecraft is targeted to fly through the shadows of Pluto and Charon.

To Sun


Potential Hazard for New Horizons Spacecraft
The figure at the right depicts the geometry of the Pluto system as the NH spacecraft penetrates the Pluto-Charon orbital plane. The origin is at the center of Pluto. Pluto is depicted by the magenta solid circle, and Charon by the black solid circle. Both are drawn to scale. The dashed magenta (Pluto) and black circles (Charon) show the Roche limits. Particles near 1:2 Mean Motion Resonance (MMR) with Charon follow the dotted blue curves in a frame with the Pluto-Charon line fixed (Winter, priv. comm.). Inside the green dot-dash circle is stable for prograde, nonresonant orbits; inside the red dash-dots circle is stable for retrograde, non-resonant orbits (Stern et al. 1994; Dones 2011). The black curve is the NH trajectory, solid above the plane, dashed below. The aim point for the NH S/C at the time of the orbital plane crossing is marked by the red X. The black line between Pluto's center and the NH trajectory marks the time of closest approach (CA) to Pluto. The NH spacecraft is traversing a potentially hazardous region. Although depicted schematically here, there are no stable Lagrange points for the Pluto-Charon binary.

*We need a better observational search for satellites and debris in the region near Pluto and Charon to assess the hazard probability. This is best done with Hubble.


New Horizons in Danger Zone?
T ln b Nrm t g H r gn ue o u e >i p i N u e o t r t am r an c di n cn

Current observational upper limits on dust in the Pluto system show that the NH spacecraft could suffer up to 10 catastrophic impacts with dust particles. The different curves refer to different grain size distributions. The legend shows the index for the assumed power law in the differential size distribution. Models suggest 2 q 3.5 All the solid lines have integrated scattered light intensities of I/F = 3 x 10-7

Pou lma 20k, S 0 i an I < ´ 10 l t d ti ist , 0m T 1 m g/ 3 u s t 10 H 21 g , F i

7

10 Dg ae nr 10
2

4

10
NH requirement: 10% impact probability
2

0

q2 = q2 =. 5 q3 = q3 =. 5

10

NH goal: 1% impact probability

r c 1 1 0 Ri s m] au[ dm 100
(Throop)

1000

New Hubble data should reduce the upper limits by a factor of ~5 (e.g., solid to dashed for q=2.5)


Hubble Detection of Ring?

Difference between composite taken on 2011 June 28 and one taken on July 3 (10 x 479s, WFC3, F606W). P = Pluto, Charon (O) is ~0.9" from Pluto; Hydra (O), Nix (O), and P4 (O) also marked. Red ellipse is Charon's orbit. *If ring is confirmed, NH spacecraft must be sent on an alternate trajectory.


Where is it safe?


Region between Nix & Hydra is Unsafe
?
P5 P6 Nix Nix
P4

Hydra Hydra

2

3

4

5

6

7

8

9

10

11

Charon X-axis is in units of Pluto-Charon distance (19,571 km)

Pires dos Santos et al. 2011


Hazard Mitigation (1)
· NH spacecraft is in flight, so can't improve shielding · Manipulating the spacecraft attitude is only marginally effective and badly compromises the science return. · Insert two extra data downlinks, one at P-1 day and another at P-2 days
­ Sacrifice some high quality science to avoid complete loss, however low priority

· Insert new LORRI mosaics at P-27 and P-17
­ Deepest search for satellites and debris before last TCMs

· Re-examine assumptions for what constitutes hazard
­ Update modeling on particle impacts to spacecraft ­ Leverage experience from APL work on Solar Probe Plus


Hazard Mitigation (2)
· If the nominal trajectory is deemed unsafe, the only viable hazard mitigation is to change the trajectory:
­ Safe Haven Bail Out Trajectory (SHBOT)

· SHBOT for New Horizons:
­ NH is building SHBOT plan, including aim point design and encounter sequencing ­ SHBOT can be executed as late as P-10 days (~10 million km away), if approach or Earth-based observations warrant ­ SHBOT encounter sequence will require a year to plan and must be completed by early 2014 ­ Must determine where to aim SHBOT by late 2012
· Time critical


Hazard Mitigation (3)
· Theoretical investigation of stability of satellites and debris in the Pluto system
­ Held Hazards Workshop in Boulder on 2011 November 3-4 ­ Assembled an international team of experts to investigate models of particle orbits in the Pluto system
· Debris escaping from small satellites is not confined to the orbital plane of the known objects in the system (3-dimensional problem) · Region between Nix and Hydra is not a good choice for SHBOT · Family of stable orbits exists inside Charon's orbit · Charon clears region from its orbit out to ~1.5x its orbit · Current baseline trajectory seems to be a good choice, however...
­ Theory and models can guide trajectory choices, but further observations are key to assessing risks


Hazard Mitigation (4)
· Design and execute an intensive, systematic observational program, utilizing the best available facilities, to:
­ Set better quantitative limits on the risk associated with the current NH spacecraft trajectory
· Discovery of a new satellite or debris within Charon's orbit would almost certainly result in abandonment of the current trajectory

­ Identify less risky trajectories for SHBOT

· Program includes:
­ Direct searches for satellites and debris using Hubble and large ground-based telescopes ­ Stellar occultations by satellites/debris in the Pluto system ­ Current status of program is summarized in the following two slides (first for direct searches, second for occultations)


Hubble proposal is in final stages of Phase 2:
· · · Requires special phasing among visits and roll angles Start in early June; End by mid-July Tony Roman (STScI) is providing excellent scheduling support


Direct Searches
Priority 1 Facility Hubble Instrument WFC3 Request
34 orbits Last two weeks of June ~3-4 hrs on each of 3-5 nights during May-July 5 half-nights during August (Aug 9-13 is optimal) 3-4 hr shots on 3 nights during "excellent" conditions in MayJuly(queue observing) 4 hr shots on 3 nights during "excellent" conditions in August(queue observing) 3 hr shots on 4 nights during "excellent" conditions in MayAug(queue observing) 4 hr shots on 3 nights during "excellent" conditions in August(queue observing)

Status Approved; Now in Phase2
Negotiating with observers Proposal submitted justifying request; NASA will buy time

1

Keck2

NIRC2 + AO
(NGS + Coronagraph)

2

Gemini-S

NICI
(Coronagraphic Planet Imager)

DDT proposal to be submitted this week

3 4

VLT Gemini-N

NACO + AO NIRI + AO

DDT proposal to be submitted during next 2 weeks DDT proposal to be submitted this week


Stellar Occultations

Priority

Facility

Instrument

Request

Status Proposal submitted, but rejected because SOFIA is being refurbished Proposal submitted

1

SOFIA

HIPO + FDC

Deployment to Indian Ocean for stellar appulse on July 21

1

SALT + 1.3 m

Imagers

Observe stellar appulse on July 21


Thanks to STScI Director 's Office!