PHOCUS

April 6, 2011
PHOCUS

The rocket

 

The PHOCUS rocket consists of 18 different instruments and has a total mass of 270 kg. The launch of PHOCUS is planned in the summer of 2011 from SSC Esrange Space Center with a two-staged Nike Improved Orion rocket to a height of approx. 105-115 km.

 

SSC’s part of the PHOCUS project

 

For the PHOCUS project SSC’s responsibilities are:
– Development of a new service module, “SM 14”
– Systems responsibility
– Development of instrument modules in co-operation with MISU, NRL, IAP/FFI, TU Graz and CTH
– Integration and tests of instrument modules
– Project manager for the campaign at SSC Esrange Space Center

 

Brief scientific description and aim of the experiment

 

Particle layers in the mesosphere are a central topic of current atmospheric research.
The relationships between various particle phenomena and their mesospheric and ionospheric environment provide particularly challenging questions. Important topics concern the nucleation and evolution of ice particles, the properties of meteoric smoke, and the possible influence of these particle populations on mesospheric chemistry.
With the PHOCUS project, we bring these different lines of scientific research together.

 

MISU

 

From MISU’s (Department of Meteorology, Stockholm University) side, the scientific approach is based on our capabilities in the optical probing of mesospheric chemistry (O-probe, H-probe, IR channels), our capabilities in the optical characterization of noctilucent cloud particles (NLC photometers), and the capability to study mesospheric smoke particles (MAGIC).

 

Microwave experiment

 

An exciting new development is the microwave experiment for measurements of water vapor by Chalmers.
The background state of the neutral mesosphere is characterized in terms of density, temperature and small scale fluctuations by the CONE instrument of the Leibniz Institute of Atmospheric Physics (IAP), Germany, and the Norwegian Defence Research Establishment (FFI).

The background ionosphere is probed by standard rocket instrumentation (radio wave propagation, ion probe) of the Technical University of Graz (TUG). Complementary measurements of charged particles are provided the University of Colorado, the University of Tromsø (UiT), and IAP.

 

Esrange LIDAR

 

The rocket-borne measurements will be complemented by ground-based studies. Most important for the continuous observations of ice particle phenomena are the Esrange Lidar and the Esrange radar. Laboratory and model studies related to the PHOCUS project will be carried out at a number of research groups in Europe and the U.S.

General information

 

Launch site Esrange Space Center
Launch date 21 July 2011

Technical information

 

Rocket type Nike Improved Orion rocket
Nominal
payload diameter
14 inches
Nominal
payload weight
~ 270 kg
Apogee ~ 105-115 km

Experiment modules

 

Module Experimenter Remark
Particle module comprising:
2 IR-photometers
2 NLC-photometers
1 Charged particle impact detector
1 Charged particle impact detector
1 MAGIC instrument (dust collection)
1 Radiometer 557GHz (front looking)
2 Faraday antennas
1 Ion probe
1 Electron probe
MISU
MISU
IAP
UIT
MISUChalmersTUG
TUG
TUG
Chemistry module comprising:
1 Oxygen detector
1 Hydrogen detector
MISU
MISU
Side module comprising:
1 Radiometer 183GHz (side looking)
1 Charged particle detector “Colorado” instrument
Chalmers

CU

CONE module comprising:
1 CONE instrument
1 CONE EP instrument
IAP
IAP

Contact person

 

Krister Sjölander, Project manager, SSC

 

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