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The
measurement of accurate and complete data sets on the state of surface, ocean,
ice and atmosphere is an essential part of environmental physics. A broad range
of instruments and techniques is available for these measurements, including
both in-situ techniques and remote sensing methods from the ground, ship,
aircraft, balloon or satellite platforms.
In this
lecture, relevant measurement techniques used in environmental physics and
chemistry will be presented, and the underlying physical and chemical concepts
will be discussed. The emphasis will be on methods employed in current research
projects at the Institute of Environmental Physics. This includes remote
sensing of atmospheric trace gases using optical absorption spectroscopy,
Fourier transform spectroscopy, measurements of currents in the ocean using
acoustic measurements, laboratory measurements of ozone, electromagnetic ice thickness
measurements, chemical kinetics modelling and the analysis of satellite
measurements using image processing techniques.
In parallel
to the lecture, practical training on experiments covering physical basics of
environmental measurement techniques, applications to atmospheric measurements
and the analysis of satellite data will take place.
The lectures take place during the first weeks of the
semester on Wednesdays either via Zoom or through pre-recorded lectures.
Videos and slides from the presentations are available
via StudIP.
9:15– 10:45 |
11:15 – 12:45 |
14:15 – 15:45 |
16:15 – 17:45 |
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April 14 |
Introduction PEP (Richter) |
Introduction Space (Richter) |
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April 21 |
Fourier Transform Spectroscopy (Makkor) |
Satellite Image Analysis (Melsheimer) |
DOAS |
Safety
Instructions (Thomssen) |
April 28 |
Stratospheric Chemistry Kinetics
modelling experiment (Daskalakis) |
Langrangian Trajectory Modelling (Poulidis) |
(Haas) |
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Pre-recorded |
Measurement Techniques in Oceanography (Mertens) |
Absorption Spectroscopy (Gorshelev) |
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Click here
for an introduction and the rules of the
practical.
Click here for
an introduction on what to write in
your protocols.
Click here
for an example of a lab report title
page.
Click here
for lab safety instructions.
To download the lab instructions, just click the links
below. Please make sure you are using the most recent version of the
instructions!
Experiment |
Last change |
Tutor |
Telephone |
03/05/2020 |
62103 |
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22/02/2014 |
62147 |
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26/04/2021 |
62181 |
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02/07/2019 |
Jamal Makkor |
62176 |
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27/05/2016 |
62121 |
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03/04/2018 |
0471-4831-2285 |
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13/04/2021 |
62143 |
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12/04/2021 |
62143 |
Note: All labs take place on Wednesdays.
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C |
D |
E |
G |
H |
I |
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Passive DOAS |
02.06. |
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Acoustical flow
Measurements (Oceanography) |
26.05. |
02.06. |
09.06. |
23.06. |
30.06. |
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Ozone Absorption
Spectroscopy |
09.06. |
19.05. |
23.06. |
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Satellite Image
Analysis Tutor |
Alex |
05.05. Marcus |
12.05. Alex |
19.05. Christian |
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Fourier Transform Spectroscopy
(FTS) |
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05.05. |
09.06. |
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Electromagnetic Ice Thickness Measurements |
23.06. |
12.05. |
09.06. |
05.05. |
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Stratospheric Chemistry Kinetics modelling
experiment |
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12.05. |
12.05. |
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Langrangian Trajectory Modelling |
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12.05. |
02.06. |
19.05. |
26.05. |
Experiment / Group Space Lab |
1 |
3 |
4 |
5 |
6 |
7 |
8 |
9 |
10 |
Passive DOAS |
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12.05. |
09.06. |
16.06. |
23.06. |
26.05. |
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Ozone Absorption Spectroscopy |
30.06. |
12.05. |
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Satellite Image Analysis Tutor |
Christian |
23.06. Christian |
26.05. Marcus |
02.06. Alex |
09.06. Marcus |
16.06. Christian |
02.06. Marcus |
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Fourier Transform Spectroscopy (FTS) |
26.05. |
12.05. |
16.06. |
Date: September 14 – 21 and September 27 - 30
Time: 09:00 – 17:00
Duration: 45 minutes each (30 minutes for space lab)
Location: S-3032
Content: A 15 minutes presentation on your favourite
practical followed by questions related to the lectures and your 4 labs (2 labs for space lab)
Prerequisites: Successful accomplishment of all 4 labs (2 labs for space lab)
The assignment of dates and times for the exam
will be communicated via StudIP.
Contact
Dr. Christian Mertens |
Dr. Andreas Richter |
Institute of Environmental Physics |
Institute of Environmental Physics |
University of Bremen |
University of Bremen |
Otto-Hahn-Allee 1 |
Otto-Hahn-Allee 1 |
28338 Bremen |
28338 Bremen |
Room: M 3140, NW 1 |
Room: U 2090, NW 1 |
Phone: (0421)-218-62147 |
Phone: (0421)-218-62103 |
E-mail: cmertens@physik.uni-bremen.de |
E-mail: richter@iup.physik.uni-bremen.de |
Last changed: 00/00/0000 00:00:00, Andreas Richter