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Physics laboratory 5

2023/2024
Programme:
Physics, First Cycle
Orientation:
Astronomy
Year:
3 year
Semester:
first
Kind:
mandatory
ECTS:
4
Language:
slovenian
Course director:
Lecturer (contact person):
Hours per week – 1. semester:
Lectures
0.4
Seminar
0
Tutorial
0
Lab
6
Prerequisites

Enrollment in the 3rd year of study.
Passed exams in Modern physics 1 and 2 and Physics laboratory 3 and 4.

Content (Syllabus outline)

List of experiments: Electronic spin resonance, Diffusion of liquids, Holography, Elecrooptic effect, Microwaves, Nuclear magnetic resonance, X-rays, Gamma ray spectroskopy, Anihilation gamma rays correlations, Hall effect.

Readings

Navodila za izvedbo eksperimentov./Experiment instructions.
Literatura navedena v navodilih./Literature listed in experiment instructions.

Objectives and competences

Use of advanced instrumentation. Mastering of more demanding experimental skils. Improvment of understanding, verification of knowledge and application of physical laws.

Intended learning outcomes

Knowledge and understanding:
Through experimental work students extend their knowledge of physics and gain experience of experimental work. Students learn how to observe and measure natural phenomena, keep laboratory notebook, criticaly analyse measurements, organize and present them.

Application:
Use of experimental equipment and modern methods of data processing.

Reflection: Critical evaluation of experimental results with theoretical models. Checking the laws of physics through personal experience.

Transferable skills: The use of measuring instruments. Using the methods of analysis and data processing. Physics lab provides the basic experimental education.

Learning and teaching methods

Individual execution of experiments, independent processing of experimental results, consultations.

Assessment

Oral defense of all exercises. Execution of experiments, understanding of physics and data processing are assesed.
grading: 5 (fail), 6-10 (pass) (according to the Statute of UL)

Lecturer's references
  1. SCHIROS, Theanne, KLADNIK, Gregor, CVETKO, Dean. Donor-acceptor shape
    matching drives performance in photovoltaics. Adv. energy mater. (Print),
    2013, vol. 3, iss. 7, str. 894-902, doi: 10.1002/aenm.201201125. [COBISS-SI-ID
    2547556]
  2. KLADNIK, Gregor, CVETKO, Dean, BATRA, Arunabh, DELL'ANGELA, Martina,
    COSSARO, Albano, KAMENETSKA, Maria, VENKATARAMAN, Latha, MORGANTE,
    Alberto. Ultrafast charge transfer through noncovalent AuN interactions in
    molecular systems. The journal of physical chemistry. C, Nanomaterials and
    interfaces, [in press] 2013, 16 str., doi: 10.1021/jp405229b. [COBISS-SI-ID
    26934567]
  3. BATRA, Arunabh, KLADNIK, Gregor, VÁZQUEZ, Héctor, MEISNER, Jeffrey S.,
    FLOREANO, Luca, NUCKOLLS, Colin, CVETKO, Dean, MORGANTE, Alberto,
    VENKATARAMAN, Latha. Quantifying through-space charge transfer dynamics
    134
    in TT-coupled molecular systems. Nature communications, 2012, vol. 3, str.
    1086-1-1086-7, doi: 10.1038/ncomms2083. [COBISS-SI-ID 26125351]
  4. COSSARO, Albano, CVETKO, Dean, FLOREANO, Luca. Amino-carboxylic
    recognition on surfaces : from 2D to 2D + 1 nano-architectures. PCCP. Phys.
    chem. chem. phys. (Print), 2012, vol. 14, issue 38, str. 13154-13162, doi:
    10.1039/C2CP41790A. [COBISS-SI-ID 26052903]
  5. COSSARO, Albano, PUPPIN, Michele, CVETKO, Dean, KLADNIK, Gregor,
    VERDINI, Alberto, CORENO, Marcello, SIMONE, Monica de, FLOREANO, Luca,
    MORGANTE, Alberto. Tailoring SAM-on-SAM formation. J. phys. chem. lett., vol.
    2, no. 24, str. 3124-3129, doi: 10.1021/jz201415k. [COBISS-SI-ID 25431335]
    135