Nowoczesne techniki eksperymentalne
Informacje ogólne
Kod przedmiotu: | 7404-WF-NOTEKS |
Kod Erasmus / ISCED: |
(brak danych)
/
(0533) Fizyka
|
Nazwa przedmiotu: | Nowoczesne techniki eksperymentalne |
Jednostka: | Szkoła Doktorska Nauk Ścisłych i Przyrodniczych |
Grupy: | |
Punkty ECTS i inne: |
3.00
|
Język prowadzenia: | angielski |
Całkowity nakład pracy studenta: | (tylko po angielsku) 30 hours of lectures (direct contact with the academic teachers). 60 hours of individual studies and preparations for the examination. |
Efekty uczenia się - wiedza: | (tylko po angielsku) P8S_WG_01 - knowledge of physical principles of selected modern experimental research techniques used in exact and natural sciences, discussed in the lectures. P8S_WG_02 - knowledge of advantages and limitations of experimental techniques discussed in the lectures. P8S_WG_03 - knowledge and understanding of experimental research methodology used in physics and biomedical research. P8S_WG_04 - knowledge of theory of selected physical phenomena studied with modern experimental techniques, discussed in the lectures. P8S_WG_05 - knowledge of current trends in development of experimental research techniques used in exact and natural sciences. P8S_WG_06 - knowledge of literature databases, scientific results databases and other scientific resources relevant to research in exact and natural sciences. |
Efekty uczenia się - umiejętności: | (tylko po angielsku) P8S_UW_01 - skills in independent study (selection of relevant topics and formulation of goals) of advanced experimental techniques, research methods and their applications in exact and natural sciences. P8S_UW_02 - skills in critical analysis of published experimental data and research results obtained with modern experimental techniques. P8S_UW_03 - skills in search for and critical analysis of literature and other scientific resources. P8S_UW_04 - skills in scientific discussion of research topics relevant to modern experimental techniques used in exact and natural sciences. |
Efekty uczenia się - kompetencje społeczne: | (tylko po angielsku) P8S_KK_01 - understanding of the need to popularize among general public and explain the value and role of modern experimental techniques in the current and future technological progress and development of modern societies. P8S_KK_01 - understanding of the importance of communication between researchers with different scientific expertise and from various disciplines in development of modern research techniques. P8S_KK_02 - understanding of the obligation to present scientific results and to formulate research conclusions based on research supported evidence and the obligation to present research-evidence supported information to the scientific community and general public. P8S_KK_03- understanding of the importance of experimental research repeatability and verifiability tested by independent scientists in independent experimental setups. P8S_KO_01- understanding of the differences among research-evidence supported conclusions, research-supported hypothesis making, speculations made by scientific experts, popular opinions spread in public media. |
Metody dydaktyczne eksponujące: | - pokaz |
Metody dydaktyczne podające: | - wykład informacyjny (konwencjonalny) |
Skrócony opis: |
Cykl wykładów prezentujących nowoczesne techniki eksperymentalne i niezbędne elementy teorii badanych zjawisk fizycznych. |
Pełny opis: |
(tylko po angielsku) Ion traps and their applications. dr hab. Łukasz Kłosowski, prof.UMK 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. Single Photon - generation, control and detection. dr hab. Piotr Kolenderski, prof. UMK 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. prof. dr hab. Daniel Lisak 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. Advantages of various methods to particular applications are discussed. Electron and positron interaction with matter: scattering experiments and positron annihilation spectroscopy. dr hab. Kamil Fedus, prof. UMK Optical Coherence Tomography, technique and applications. dr hab. Iwona Gorczynska, prof.UMK Principles of optical coherence tomography will be explained. Applications in structural tissue imaging, OCT angiography, Doppler OCT and optoretinography will be discussed. |
Metody i kryteria oceniania: |
(tylko po angielsku) Assessment of knowledge (P8S_WG_01-05) via a test after the completion of the course. GRADING CRITERIA [92; 100]% - bdb (excellent) [84; 92)% - db+ (very good) [76; 84)% - db (good) [68; 76)% - dst+ (satisfactory) [60; 68)% - dst (minimum) [0; 60)% - ndst (failed) |
Zajęcia w cyklu "Semestr letni 2021/22" (zakończony)
Okres: | 2022-02-21 - 2022-09-30 |
Przejdź do planu
PN WT ŚR CZ PT |
Typ zajęć: |
Wykład, 30 godzin
|
|
Koordynatorzy: | Iwona Gorczyńska | |
Prowadzący grup: | (brak danych) | |
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 |
Zajęcia w cyklu "Semestr letni 2022/23" (zakończony)
Okres: | 2023-02-20 - 2023-09-30 |
Przejdź do planu
PN WT ŚR CZ PT |
Typ zajęć: |
Wykład, 30 godzin
|
|
Koordynatorzy: | Iwona Gorczyńska | |
Prowadzący grup: | Winicjusz Drozdowski, Kamil Fedus, Iwona Gorczyńska, Łukasz Kłosowski, Piotr Kolenderski, Daniel Lisak | |
Lista studentów: | (nie masz dostępu) | |
Zaliczenie: |
Przedmiot -
Egzamin
Wykład - Egzamin |
Zajęcia w cyklu "Semestr zimowy 2023/24" (zakończony)
Okres: | 2023-10-01 - 2024-02-19 |
Przejdź do planu
PN WYK
WT WYK
ŚR WYK
WYK
CZ PT WYK
|
Typ zajęć: |
Wykład, 30 godzin
|
|
Koordynatorzy: | Iwona Gorczyńska | |
Prowadzący grup: | Winicjusz Drozdowski, Kamil Fedus, Iwona Gorczyńska, Łukasz Kłosowski, Piotr Kolenderski, Daniel Lisak | |
Lista studentów: | (nie masz dostępu) | |
Zaliczenie: | Egzamin |
Właścicielem praw autorskich jest Uniwersytet Mikołaja Kopernika w Toruniu.