Title: research efforts in the field of astrobiology
1research efforts in the field of astrobiology
University of Aarhus
- Steen Brøndsted Nielsen, Lars Andersen, Liv
Hornekær, David Field - Department of Physics and Astronomy
2University of Aarhus
3Areas of Research
- Fundamental physico-chemical interactions of
radiation and electrons with molecules and
spontaneous molecular processes on surfaces -
- Systems chosen are of special interest in biology
and in astrophysics, including the formation and
survival of biomolecules in space and on the
early Earth or Mars
4Specific areas of research
- Radiation damage to isolated biomolecular systems
- Photoexcitation dynamics of bio-chromophores
- Molecular Astrophysics on Surfaces
- Cold electron interactions with molecules
Me!
5What facilities do we have available?
- Synchrotron Radiation we have a SR storage ring
at Aarhus, ASTRID
6ASTRID
7What facilities do we have available?
- Synchrotron Radiation we have a SR storage ring
at Aarhus, ASTRID - We use SR for Circular Dichroism and biomolecule
damage studies - SR is also used for making very cold electron
beams for electron-molecule interaction studies
8ELISA Electrostatic Storage Ring for ions at
Aarhus
http//www.isa.au.dk/facilities/elisa/elisa.html
9ELISA
maximum energy of ion beam 22 keV/charge storage
time seconds to minutes
10Experiments using ELISA
- damage to isolated biomolecular systems,
involving DNA and RNA nucleotides and peptides
under the influence of low energy electrons and
UV light. - These experiments investigate the primary events
associated with radiation damage in a harsh
environment relevant to the early Earth. - Steen Brøndsted Nielsen and Lars Andersen
11More experiments using ELISA (and femtosecond
lasers)
- the electronic structure of macromolecular ions,
in particular bio-chromophores - energy conversion processes after photoexcitation
(e.g. in Green Fluorescent Protein with 238
aminoacids European Physical Journal D, 20 597
(2002) - see also http//www.biophysj.org/cgi/content/f
ull/92/1/201 - Influence of the solvent on the absorption
characteristics of isolated biomolecular ions - Lars Andersen
12Circular Dichroism using ASTRID Synchrotron
Radiation
- Circular Dichroism is the difference in
absorption between left and right hand circularly
polarised light in chiral molecules - Experiments shed light on the electronic coupling
between nucleobases when DNA is excited by VUV - Relevant to the survival of DNA strands under the
VUV stress associated with the Earth before the
formation of an ozone layer. - Steen Brøndsted Nielsen
13Molecular Astrophysics on Surfaces
- Molecular Hydrogen formation on amorphous
solid water - Molecular Hydrogen formation on carbonaceous
surfaces - The influence of surface morphology on molecule
formation surface with pores or a smooth surface - Interaction of atomic species (H, N, O) with
Polycyclic Aromatic Hydrocarbons - Liv Hornekær
-
14Dust around protostars
- dust grains made of Mg, Fe silicates and
graphitic composites 1 of total mass of gas - particle size large molecule (tens of Å) to
microns, with many more small dust particles than
large (n(M)M-2.3) - temperature 10K but can be higher
- coated with a cocktail of molecules CO, H2O, NH3,
CO2, methanol etc. - dust is primarily formed in red supergiants and
giant stars and distributed around the Galaxy
15Liv is studying surface reactions on interstellar
dust grains
H
O
C
N
16Techniques available
- Scanning Tunnelling Microscopy (STM)
-
- temperature programmed desorption
- laser desorption techniques
- time-of-flight and internal energy measurements
of products (e.g. H2)
17H-Dimers on Graphite a Scanning Tunneling
Microscope image
18Cold electron interactions
- Using the ASTRID synchrotron storage ring we
create very high resolution electron beams with
an energy spread of 1-2 meV, using an Argon
photoionization source. - Cold electron beams are guided onto solid
material and their interaction with these solids
is studied.
19Electron induced reactions
H
O
C
N
20- Cold electron interactions with solids is a new
topic - The processes which we study are relevant to the
fate of ices in the interstellar medium - Cold electron induced synthesis could be a key to
understanding the formation of prebiotic
molecules in space, such as the 70-80 amino-acids
extracted from the Murchison meteorite - NH3 CH3COOH ? glycine via an electron induced
mechanism? - David Field
21This telescope will transform our knowledge of
molecular species in the interstellar medium. For
example, if glycine and other aminoacids are in
the gas phase, we will find them.
Atacama Large Milllimetre Array ALMA
22OMC1 scale 0.15 pc
We can study very young stars in the Orion
Molecular Cloud (OMC1) and discover what were the
physical conditions prevailing at the time of the
formation of the Sun and our planetary system
23What can we see when we look at protostellar
zones?
- Dust obscures protostars you cannot see them in
the visible region of the spectrum - look in the infrared e.g. at 2 microns (and at
longer wavelengths) - 2 micron emission of vibrationally excited
hydrogen is a beacon of star formation - one can see gas bursting out of protostars and
smashing into the surrounding material with
velocities of 5 to 50 km/s
24Hot hydrogen in the Orion molecular cloud
25Star formation in Orion a fast outflow from a
protostar is a beacon of star formation
extensive chemical processing at high temperature
in shocks material blasted off the surface of
dust, reacts in the gas phase and redeposited on
dust
26- material re-deposited after the shock cools from
several thousand K to 10K (1-2 years) - chemically processed material is reprocessed on
dust grain surfaces by cold electrons these may
be very active in inducing chemistry already
mentioned - chemical processing also by UV photons if
majority of the dust is not completely shielded
from light by other dust
27Specific areas
- Radiation damage to isolated biomolecular systems
- Photoexcitation dynamics of bio-chromophores
- Molecular Astrophysics on Surfaces
- Cold electron interactions with molecules
- The emphasis is strongly on fundamental
physics and chemistry processes of relevance to
the evolution of biology