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Nowoczesne techniki eksperymentalne

Informacje ogólne

Kod przedmiotu: 7404-WF-NOTEKS Kod Erasmus / ISCED: (brak danych) / (0533) Fizyka
Nazwa przedmiotu: Nowoczesne techniki eksperymentalne
Jednostka: Wydział Fizyki, Astronomii i Informatyki Stosowanej
Grupy:
Punkty ECTS i inne: 3.00
Język prowadzenia: angielski
Metody dydaktyczne eksponujące:

- pokaz

Metody dydaktyczne podające:

- wykład informacyjny (konwencjonalny)
- wykład konwersatoryjny

Skrócony opis:

Cykl wykładów prezentujących nowoczesne techniki eksperymentalne i niezbędne elementy teorii badanych zjawisk fizycznych.

Pełny opis: (tylko po angielsku)

Present trends in search and investigations on scintillator materials.

Dr hab. Winicjusz Drozdowski, prof. UMK

A class of materials termed "scintillators" is introduced, including their most important properties and applications. Then, experimental techniques employed to investigate scintillator samples at NCU are presented.

Selected physico-chemical methods of examination of objects of art.

Prof. dr hab. Piotr Targowski

Examination of objects of art is a complicated, multidisciplinary process being a subject of conservation science. In addition to historical, stylistic and aesthetic analyses being a domain of humanities, the physico-chemical methods are widely used. Contemporary conservation ethics points to non-invasive techniques and examinations performed in-situ as most desirable. It this lecture some such techniques, usually adopted from analytical chemistry and physics will be presented with particular regard to expectations and limitations specific to applications to heritage objects. Due to the expected non-invasiveness most of the presented techniques will be spectroscopic (from THz to X-ray) and optical methods. Particular attention will be given to optical coherence tomography (OCT) and X-ray induced fluorescence (XRF) imaging, which are routinely used in our laboratory for examination of art.

Methods of Light Propagation Control and Applications in Modern Imaging Modalities.

Dr hab. Irenusz Grulkowski

In this lecture, we demonstrate modern methods for controling spatio-temporal characteristics of the light propagation. In particular, we present theoretical and experimental aspects of generation of non-standard optical fields such as non-diffractive beams, bottle beams etc. We also show applications of different illumination strategies in imaging technologies (microscopy, tomography etc.).

Atomic clocks and spectroscopy experiments.

Dr hab. Michał Zawada, prof. UMK

The lecture will cover the physics behind atomic clocks and atomic

spectroscopy utility for applied and fundamental physics study. I

assume the students have basic knowledge on the theory of relativity

and on the standard model.

Single Photon -- generation, control and detection.

Dr Piotr Kolenderski

The lecture is devoted to methods of generation, control and detection

of single photons. The basic physical process which is used for that is

spontaneous parametric down conversion. Basics of photonic

implementation of quantum tomography will be introduced.

Cavity enhanced and cavity ring-down spectroscopy for detection of gases.

Dr hab. Daniel Lisak, prof. UMK

Principles of absorption spectroscopy is briefly described, including laser spectroscopy and cavity-enhanced spectroscopy. Basic theory of optical cavity, mode-matching and phase/frequency locking of laser radiation to TEM cavity modes are presented. Next, several cavity enhanced spectroscopic techniques are described together with their applications high-resolution study of gas-phase samples. Advantage of various methods to particular applications are discussed.

Optical frequency combs and their uses in broadband absorption spectroscopy.

Dr Akiko Nishiyama

In the first class, I will show what the optical frequency comb is, how to make fiber based frequency combs, and how to use it for frequency metrology. The second class will give a lecture about Fourier transform spectroscopy using the combs and its application to precise molecular spectroscopy.

Optical imaging methods for visualizing functions of biomedical samples.

Dr hab. Maciej Szkulmowski, prof. UMK

Metody i kryteria oceniania: (tylko po angielsku)

Starting in year 2020 each part of the lecture will be verified

separately. For each part of Lecture student can earn from 0 to 1

point. Sum of collected points corresponds to the mark:

dst (3) - from 2.8 to 3.2 points

dst+ (3+) - from 3.3 to 3.7 points

db (4) - from 3.8 to 4.2 points

db+ (4+) - from 4.3 to 4.7 points

bdb (5) - from 4.8 points

Zajęcia w cyklu "Semestr letni 2019/20" (zakończony)

Okres: 2020-02-29 - 2020-09-20
Wybrany podział planu:


powiększ
zobacz plan zajęć
Typ zajęć: Wykład, 30 godzin więcej informacji
Koordynatorzy: Roman Ciuryło
Prowadzący grup: Winicjusz Drozdowski, Ireneusz Grulkowski, Piotr Kolenderski, Daniel Lisak, Akiko Nishiyama, Maciej Szkulmowski, Piotr Targowski, Michał Zawada
Lista studentów: (nie masz dostępu)
Zaliczenie: Przedmiot - Egzamin
Wykład - Egzamin

Zajęcia w cyklu "Semestr letni 2020/21" (w trakcie)

Okres: 2021-02-22 - 2021-09-20
Wybrany podział planu:


powiększ
zobacz plan zajęć
Typ zajęć: Wykład, 30 godzin więcej informacji
Koordynatorzy: Roman Ciuryło
Prowadzący grup: Alicja Chruścińska, Roman Ciuryło, Winicjusz Drozdowski, Łukasz Kłosowski, Sebastian Maćkowski
Lista studentów: (nie masz dostępu)
Zaliczenie: Przedmiot - Egzamin
Wykład - Egzamin
Pełny opis: (tylko po angielsku)

Present trends in search and investigations on scintillator materials.

Prof. dr hab. Winicjusz Drozdowski,

A class of materials termed "scintillators" is introduced, including their most important properties and applications. Then, experimental techniques employed to investigate scintillator samples at NCU are presented.

Modern spectroscopy of spectral line shapes

Prof. dr hab. Roman Ciuryło

Short review of main physical effects (collisional and Doppler broadening, Dicke narrowing, speed-dependent effects, collision-time and line-mixing asymmetry) affecting spectral line shapes as well as theoretical methods will be presented. Moreover, occurate and sensitive methods of cavit enchanced spectroscopy and its application to fundamental research will be disscused.

Luminescence methods in dosimetry

Dr hab. Alicja Chruścińska, prof. UMK

Fluorescence of nanostructures: from basic processes in the nanoscale to single molecule spectroscopy

Prof. dr hab. Sebastian Maćkowski

Ion traps and their applications

Dr inż. Łukasz Kłosowski

Opisy przedmiotów w USOS i USOSweb są chronione prawem autorskim.
Właścicielem praw autorskich jest Uniwersytet Mikołaja Kopernika w Toruniu.