Fysik ÖVERSIKT ÖVER UTBILDNINGAR

1 of 25 2013-06-05 11:31 ÖVERSIKT ÖVER UTBILDNINGAR Kurs grundnivå, Kurs avancerad nivå, Utbildning på grundnivå för nybörjare Endast utbildningar/tillfällen i svart text är publicerade. Annan status anges med: preliminär aktiv/klar/öppen godkänd stängd/nedlagd. Fysik Institution: Undergraduate Programme of Studies in Physics within Faculty of Science, Sölvegatan 14C, Lund, Tel: 046-2227721, http://utbildning.fysik.lu.se Studievägledare: Johan Zetterberg, Studievagledare@fysik.lu.se, Tel: 046-2227728, Fysikers kunskap om de lagar som styr allt, från det allra minsta till det allra största i universum, är basen för all teknologi [...] och därmed också för vår välfärd [...]. Fysikers goda anpassningsförmåga ger dem stora möjligheter att hitta arbeten i en snabbt föränderlig arbestmarknad. (ur: "Att välja yrke online 2007" SACO) Fysik i Lund är de många möjligheternas utbildning. Är någon av dessa inriktningarna intressant för dig? Meteorologi, Klimatologi, Astrofysik, Medicinsk fysik, Förbränningsfysik, Rymdfysik, Nanovetenskap, Miljöfysik, Matematisk fysik, Biofysik, Biogeofysik, Laserfysik, Teoretisk fysik, Analytisk fysik, Subatomär fysik, Materialfysik, Kombinationsutbildning fysiker-lärare, Kemi-fysik, Fotonik, Laserfysik med mera. Då är Fysik i Lund något för dig. Fysikers styrka ligger i deras förmåga att formulera modeller, göra datorsimuleringar och -beräkningar, samt att utföra och analysera experiment och mätningar. Detta efterfrågas, tillsammans med fysikers förmåga att föra logiska resonemang inom många delar av arbetsmarknaden - det kan gälla telekommunikation, miljömätningar, sökandet efter nya energikällor, medicinsk diagnos med laserteknik och mycket annat. Även finans- och försäkringsmarknaden har insett fördelen med fysikers kännedom om modellbyggande. Vi erbjuder ett rikt utbud av kurser, i samarbete med LTH. Du kan också välja att följa ett av våra kandidatprogram (i fysik, kemi/fysik, meteorologi och biogeofysik eller astrofysik) eller masterprogrammet i fysik Studenter som väljer Fysik i Lund har nära tillgång till både den svenska och den heta, danska arbetsmarknaden. Och bara ett stenkast bort ligger hela Europa... KURSER Grundnivå FYSA11, Physics 1: General Physics, 30,0 ECTS http://utbildning.fysik.lu.se/fysa11 Beskrivning (till katalog): Om du vill prova på fysik eller redan är övertygad om att fysik är ditt ämne, så är detta din kurs. Den rekommenderas också för de studenter som inriktar sig på annat ämne, men vill ha en breddning inom fysiken. Kursen består av tre delmoment: 1) Mekanik och elektromagnetism 15 hp 2) Optik, vågrörelser, atomer, kärnor och partiklar 12 hp 3) Experimentella seminarier, 3 hp Beskrivning (till webb): Om du vill prova på fysik eller redan är övertygad om att fysik är ditt ämne, så är detta din kurs. Den rekommenderas också för de studenter som inriktar sig på annat ämne, men vill ha en breddning inom fysiken. Kursen består av tre delmoment: 1) Mekanik och elektromagnetism 15 hp 2) Optik, vågrörelser, atomer, kärnor och partiklar 12 hp 3) Experimentella seminarier, 3 hp General and courses corresponding to the following Swedish Upper Secondary School Programs: Physics B, Chemistry A and Mathematics D. Grundläggande behörighet + Fysik B, Kemi A, Matematik D eller Fysik 2, Kemi 1, Matematik 4 (områdesbehörighet 9/A9) The general average (GPA) of your higher secondary school leaving certificate: 34 %, The Swedish national university aptitude test: 34 %, Previous college/university studies (APGR): 32 %. The University board has decided that applicants with equal merits should be seperated by the use of a valid result from the Swedish national university aptitude test. Betyg: 34 %, Högskoleprov: 34 %, Akademiska meriter (APGR): 32 %. Universitetet har beslutat att använda giltigt högskoleprovsresultat som skiljekriterium vid lika meriter. VT, Fulltime, Daytime, Lund, Normal, Application code, Course period 2014-01-20-2014-06-06, Kostnad: 70 000 SEK Monday January 20, 2014, 9.15 AM, Sölvegatan 14C in Lund edu.physics.lu.se/fysa11

2 of 25 2013-06-05 11:31 VT, Fulltime, Daytime, Lund, Normal, Application code E5151, Course period 2014-01-20-2014-06-05, Kostnad: 70 000 SEK Monday January 20 2014, 9.15 AM at Sölvegatan 14C in Lund edu.physics.lu.se/fysa11 FYSA21, Physics 2: Tools in Science, 30,0 ECTS http://utbildning.fysik.lu.se/fysa21 Grundläggande samt genomgången FYSA11 och 30 hp matematik, eller motsvarande The general average (GPA) of your higher secondary school leaving certificate: 20 %, The Swedish national university aptitude test: 10 %, Previous college/university studies (APGR): 70 %. Betyg: 20 %, Högskoleprov: 10 %, Akademiska meriter (APGR): 70 %. VT, Fulltime, Daytime, Lund, Normal, Application code, Course period 2014-01-20-2014-06-06, Kostnad: 70 000 SEK Monday January 20, 2014, 1.15 PM, Sölvegatan 14C in Lund edu.physics.lu.se/fysa21 VT, Fulltime, Daytime, Lund, Normal, Application code E5161, Course period 2014-01-20-2014-06-05, Kostnad: 70 000 SEK Monday January 20 2014, 1.15 PM at Sölvegatan 14C in Lund edu.physics.lu.se/fysa21 FYSB01, Physics: Introduction to Quantum Mechanics, 7,5 ECTS http://utbildning.fysik.lu.se/fysa21 General and General and FYSA11 and 30 ECTS-credits Mathematics or equivalent. Grundläggande samt FYSA11 och 30 hp Matematik eller motsvarande The general average (GPA) of your higher secondary school leaving certificate: 20 %, The Swedish national university aptitude test: 10 %, Previous college/university studies (APGR): 70 %. Betyg: 20 %, Högskoleprov: 10 %, Akademiska meriter (APGR): 70 %. Monday January 20, 2014, 1.15 PM, Sölvegatan 14C in Lund edu.physics.lu.se/fysa21 VT, Part time (50 %), Daytime, Lund, Normal, Application code E5171, Course period 2014-01-20-2014-03-24, Monday January 20 2014, 1.15 PM, Sölvegatan 14C in Lund edu.physics.lu.se/fysa21 FYSB02, Physics: Quantum Mechanics and Computations, 15,0 ECTS http://utbildning.fysik.lu.se/fysa21 General and General and FYSA11 and 30 ECTS-credits Mathematics or equivalent Grundläggande samt FYSA11 och 30 hp Matematik, eller motsvarande The general average (GPA) of your higher secondary school leaving certificate: 20 %, The Swedish national university aptitude test: 10 %, Previous college/university studies (APGR): 70 %.

3 of 25 2013-06-05 11:31 Betyg: 20 %, Högskoleprov: 10 %, Akademiska meriter (APGR): 70 %. VT, Fulltime, Daytime, Lund, Normal, Application code E5181, Course period 2014-01-20-2014-06-05, Kostnad: 35 000 SEK Monday January 20 2014, 1.15 PM, Sölvegatan 14C in Lund edu.physics.lu.se/fysa21 VT, Part time (50 %), Daytime, Lund, Normal, Application code, Course period 2014-01-20-2014-06-06, Kostnad: 35 000 SEK Monday January 20, 2014, 1.15 PM, Sölvegatan 14C in Lund edu.physics.lu.se/fysa21 FYSC11, Physics: Atomic and Molecular Physics, 7,5 ECTS http://utbildning.fysik.lu.se/fysa31 General and FYSA21 or similar Grundläggande samt FYSA21 eller motsvarande The general average (GPA) of your higher secondary school leaving certificate: 20 %, The Swedish national university aptitude test: 10 %, Previous college/university studies (APGR): 70 %. Betyg: 20 %, Högskoleprov: 10 %, Akademiska meriter (APGR): 70 %. Monday January 20, 2014, 11.15 AM, Sölvegatan 14C in Lund edu.physics.lu.se/fysc01 VT, Part time (50 %), Daytime, Lund, Normal, Application code E5191, Course period 2014-01-20-2014-03-24, Monday January 20 2014, 11.15 AM, Sölvegatan 14C in Lund edu.physics.lu.se/fysc11 FYSC12, Physics: Nuclear Physics and Reactors, 7,5 ECTS http://utbildning.fysik.lu.se/fysa31 General and FYSA21 or similar. It is recommended that FYSC11 is taken before or in parallell to this course. Grundläggande samt FYSA21 eller motsvarande. Det rekommenderas att FYSC11 läsas innan eller parallellt med denna kurs. The general average (GPA) of your higher secondary school leaving certificate: 20 %, The Swedish national university aptitude test: 10 %, Previous college/university studies (APGR): 70 %. Betyg: 20 %, Högskoleprov: 10 %, Akademiska meriter (APGR): 70 %. Monday January 20, 2014, 11.15 AM, Sölvegatan 14C in Lund edu.physics.lu.se/fysc01 VT, Part time (50 %), Daytime, Lund, Normal, Application code E5201, Course period 2014-01-20-2014-03-24, Monday January 20 2014, 11.15 AM, Sölvegatan 14C in Lund edu.physics.lu.se/fysc12

4 of 25 2013-06-05 11:31 FYSC13, Physics: Solid State Physics, 7,5 ECTS http://edu.physics.lu.se/fysa31 General and FYSC11 or similar. Grundläggande samt FYSC11 eller motsvarande. The general average (GPA) of your higher secondary school leaving certificate: 20 %, The Swedish national university aptitude test: 10 %, Previous college/university studies (APGR): 70 %. Betyg: 20 %, Högskoleprov: 10 %, Akademiska meriter (APGR): 70 %. Monday January 20, 2014, 11.15 AM, Sölvegatan 14C in Lund edu.physics.lu.se/fysc01 VT, Part time (50 %), Daytime, Lund, Normal, Application code E5211, Course period 2014-03-25-2014-06-05, edu.physics.lu.se/fysc13 FYSC14, Physics: Particle Physics, Cosmology and Accelerators, 7,5 ECTS http://edu.physics.lu.se/fysa31 General and FYSC11 and FYSC12 or similar Grundläggande samt FYSC11 and FYSC12 eller motsvarande The general average (GPA) of your higher secondary school leaving certificate: 20 %, The Swedish national university aptitude test: 10 %, Previous college/university studies (APGR): 70 %. Betyg: 20 %, Högskoleprov: 10 %, Akademiska meriter (APGR): 70 %. Monday January 20, 2014, 11.15 AM, Sölvegatan 14C in Lund edu.physics.lu.se/fysc01 VT, Part time (50 %), Daytime, Lund, Normal, Application code E5221, Course period 2014-03-25-2014-06-05, edu.physics.lu.se/fysc14 FYSD11, Physics: Fundamental Combustion, 7,5 ECTS Description (to catalogue): Why is it useful to study combustion? One motivation is that this source contributes with more than 85% of all the energy supply in the world, and the energy usage increase globally by 3% per year. Another motivation is that knowledge in combustion is important for the modern engineer to be able to make combustion processes more efficient and to develop them to produce less pollutants, such as hydrocarbons, particles and nitrogen oxides. Thus, we need to study combustion processes. Research on alternative fuels also enables a transition to a future sustainable society. This course aims at providing the basics for understanding combustion phenomena. This includes thermodynamics, chemical kinetics, ignition, fluid dynamics and the formation of pollutants. From the knowledge in these areas it is possible to reach an understanding for energy related and environmental problems connected to real life combustion. Description (to web): Why is it useful to study combustion? One motivation is that this source contributes with more than 85% of all the energy supply in the world, and the energy usage increase globally by 3% per year. Another motivation is that knowledge in combustion is important for the modern engineer or scientist to be able to make combustion processes more efficient and to develop them to produce less pollutants, such as hydrocarbons, particles and nitrogen oxides. Thus, we need to study combustion processes. Research on alternative fuels also enables a transition to a future sustainable society. This course aims at providing the basics for understanding combustion phenomena. This includes thermodynamics, chemical kinetics, ignition, fluid dynamics and the formation of pollutants. From the knowledge in these areas it is possible to reach an understanding for energy related and environmental problems connected to real life

5 of 25 2013-06-05 11:31 combustion. Beskrivning (till katalog): Varför bör man studera förbränning? Ett skäl är att det en viktig energikälla i världen då mer än 85% av all energianvändning har sitt ursprung I förbränning och att energibehovet ökar med 3% per år. Ett annat skäl är att kunskaper i förbränning är viktiga för framtidens ingenjörer för att kunna effektivisera förbränningsprocesser och utveckla dem så att de ger lägre utsläpp av skadliga föroreningar som t.ex kolväten, NOx, dioxiner och sot. Forskning på nya förnyelsebara bränslen möjliggör en övergång till ett framtida hållbart samhälle. Kursen ger de grundläggande betingelserna för förbränningsfenomen, och inkluderar bl.a. termodynamik, kemisk kinetik, självantändningsprocesser, flammors struktur, värme- och masstransport, och hur luftburna föroreningar bildas vid förbränning. Med detta som grund skapas en förståelse för hur energi- och miljöproblem är relaterade till förbränning i praktiska förbränningssystem. Beskrivning (till webb): Varför bör man studera förbränning? Ett skäl är att det en viktig energikälla i världen då mer än 85% av all energianvändning har sitt ursprung I förbränning och att energibehovet ökar med 3% per år. Ett annat skäl är att kunskaper i förbränning är viktiga för framtidens ingenjörer för att kunna effektivisera förbränningsprocesser och utveckla dem så att de ger lägre utsläpp av skadliga föroreningar som t.ex kolväten, NOx, dioxiner och sot. Forskning på nya förnyelsebara bränslen möjliggör en övergång till ett framtida hållbart samhälle. Kursen ger de grundläggande betingelserna för förbränningsfenomen, och inkluderar bl.a. termodynamik, kemisk kinetik, självantändningsprocesser, flammors struktur, värme- och masstransport, och hur luftburna föroreningar bildas vid förbränning. Med detta som grund skapas en förståelse för hur energi- och miljöproblem är relaterade till förbränning i praktiska förbränningssystem. General and FYSA31 or similar Grundläggande samt FYSA31 eller motsvarande The general average (GPA) of your higher secondary school leaving certificate: 20 %, The Swedish national university aptitude test: 10 %, Previous college/university studies (APGR): 70 %. Betyg: 20 %, Högskoleprov: 10 %, Akademiska meriter (APGR): 70 %. VT, Part time (50 %), Daytime, Lund, Normal, Application code, Course period 2014-03-24-2014-06-08, edu.physics.lu.se/fysd11 VT, Part time (50 %), Daytime, Lund, Normal, Application code E5231, Course period 2014-03-25-2014-06-05, edu.physics.lu.se/fysd11 FYSK01, Physics: Bachelor s Degree Project, 15,0 ECTS http://utbildning.fysik.lu.se/fysk01 General and FYSA31 or equivalent. Grundläggande samt FYSA31 eller motsvarande Admission guaranteed Platsgaranti VT, Helfart, Blandade tider, Lund, Normal, Anm-kod, Period 2014-03-25-2014-06-08, [Antagningsomgång KURSVT14] Kostnad: 35 000 SEK Måndagen den 20 januari, 2014, klockan 9.15 på Sölvegatan 14C, Lund utbildning.fysik.lu.se/examensarbete VT, Part time (50 %), Mixed, Lund, Normal, Application code, Course period 2014-06-04-2014-06-08, Kostnad: 35 000 SEK Monday January 20, 2014, 9.15 AM, Sölvegatan 14C in Lund edu.physics.lu.se/examensarbete FYSM01, Physics 4: Introduction to Advanced Physics, 30,0 ECTS http://utbildning.fysik.lu.se/fysm01

6 of 25 2013-06-05 11:31 Admission guaranteed Platsgaranti VT, Fulltime, Daytime, Lund, Normal, Application code, Course period 2014-01-20-2014-06-08, Kostnad: 70 000 SEK edu.physics.lu.se/fysm01 FYSN17, Physics: Quantum Mechanics, 7,5 ECTS http://utbildning.fysik.lu.se/fysm01 edu.physics.lu.se/fysn17 VT, Part time (50 %), Daytime, Lund, Normal, Application code E5251, Course period 2014-01-20-2014-03-24, edu.physics.lu.se/fysn17 FYST13, Physics: Chaos for Science and Technology, 7,5 ECTS http://utbildning.fysik.lu.se/fyst13 edu.physics.lu.se/fyst13 VT, Part time (50 %), Daytime, Lund, Normal, Application code E5261, Course period 2014-03-25-2014-06-05, edu.physics.lu.se/fyst14 FYST16, Physics: Modern Subatomic Physics, 7,5 ECTS http://utbildning.fysik.lu.se/fyst16

7 of 25 2013-06-05 11:31 edu.physics.lu.se/fyst16 VT, Part time (50 %), Daytime, Lund, Normal, Application code E5271, Course period 2014-03-25-2014-06-05, edu.physics.lu.se/fyst16 FYST17, Physics: Modern Experimental Particle Physics, 7,5 ECTS http://utbildning.fysik.lu.se/fyst17 edu.physics.lu.se/fyst17 VT, Part time (50 %), Daytime, Lund, Normal, Application code E5281, Course period 2014-01-20-2014-03-24, edu.physics.lu.se/fyst17 FYST18, Physics: Applied Subatomic Physics, 7,5 ECTS http://utbildning.fysik.lu.se/fyst18 edu.physics.lu.se/fyst18 VT, Part time (50 %), Daytime, Lund, Normal, Application code E5291, Course period 2014-01-20-2014-03-24, edu.physics.lu.se/fyst18 FYST19, Physics: Physics and Chemistry of Surfaces, 7,5 ECTS http://utbildning.fysik.lu.se/fyst19

8 of 25 2013-06-05 11:31 edu.physics.lu.se/fyst19 VT, Part time (50 %), Daytime, Lund, Normal, Application code E5301, Course period 2014-03-25-2014-06-05, edu.physics.lu.se/fyst19 FYST20, Physics:Spectroscopy and the Quantum Description of Matter, 7,5 ECTS http://utbildning.fysik.lu.se/fyst20 edu.physics.lu.se/fyst20 VT, Part time (50 %), Daytime, Lund, Normal, Application code E5311, Course period 2014-01-20-2014-03-24, edu.physics.lu.se/fyst20 FYST21, Physics: Light-Matter Interaction, 7,5 ECTS Description (to catalogue): The aim of the course Light-matter interaction is to give the student advanced knowledge of the quantum-mechanical interaction between light and matter, and its application in different research fields, such as laser cooling and quantum computers. A basic knowledge in Atomic Physics and Quantum Mechanics is required. Two laboratory exercises, in groups of only 4 students and a highly qualified supervisor are included: Quantum control and Atoms in strong laser fields. Literature: "Atomic Physics" by C. J. Foot. Description (to web): The aim of the course Light-matter interaction is to give the student advanced knowledge of the quantum-mechanical interaction between light and matter, and its application in different research fields, such as laser cooling and quantum computers. A basic knowledge in Atomic Physics and Quantum Mechanics is required. Two laboratory exercises, in groups of only 4 students and a highly qualified supervisor are included: Quantum control and Atoms in strong laser fields. Literature: "Atomic Physics" by C. J. Foot. http://utbildning.fysik.lu.se/fyst21 edu.physics.lu.se/fyst21

9 of 25 2013-06-05 11:31 VT, Part time (50 %), Daytime, Lund, Normal, Application code E5321, Course period 2014-01-20-2014-03-24, edu.physics.lu.se/fyst21 FYST22, Physics: Medical Optics, 7,5 ECTS Description (to catalogue): The aim of the course is to give the student knowledge of the interaction between light and highly scattering media, such as e.g. tissue. This knowledge is central for a large number of clinical diagnostic tools as well as laser based treatments. Biomedical optics is a fast developing field of research and the medical industry will require people with this knowledge in the near future. More specifically, the course deals with light propagation in strongly scattering media, analytical and numerical solution of diffusion equations, Monte Carlo simulations and heat transfer equations. Measurements of the properties of strongly diffusive media e.g. the temperature distribution in tissue following laser irradiation. The course includes 2 laboratory sessions: Fluorescence Imaging and Time-resolved diffuse reflectance, and 2 computer exercises dealing with the diffusion equation and Monte Carlo simulations, respectively. Literature: Much of the course is based on the book Optical Thermal Response of Laser Irradiated Tissue edited by A.J. Welch and M.J.C. van Gemert, complemented by information found on the net. Description (to web): The aim of the course is to give the student knowledge of the interaction between light and highly scattering media, such as e.g. tissue. This knowledge is central for a large number of clinical diagnostic tools as well as laser based treatments. Biomedical optics is a fast developing field of research and the medical industry will require people with this knowledge in the near future. More specifically, the course deals with light propagation in strongly scattering media, analytical and numerical solution of diffusion equations, Monte Carlo simulations and heat transfer equations. Measurements of the properties of strongly diffusive media e.g. the temperature distribution in tissue following laser irradiation. The course includes 2 laboratory sessions: Fluorescence Imaging and Time-resolved diffuse reflectance, and 2 computer exercises dealing with the diffusion equation and Monte Carlo simulations, respectively. Literature: Much of the course is based on the book Optical Thermal Response of Laser Irradiated Tissue edited by A.J. Welch and M.J.C. van Gemert, complemented by information found on the net. http://utbildning.fysik.lu.se/fyst22 edu.physics.lu.se/fyst22 VT, Part time (50 %), Daytime, Lund, Normal, Application code E5331, Course period 2014-03-25-2014-06-05, edu.physics.lu.se/fyst22 FYST23, Experimental Biophysics, 15,0 ECTS http://utbildning.fysik.lu.se/fyst23 VT, Part time (50 %), Daytime, Lund, Normal, Application code, Course period 2014-01-20-2014-06-08, Kostnad: 35 000 SEK edu.physics.lu.se/fyst23

10 of 25 2013-06-05 11:31 VT, Part time (50 %), Daytime, Lund, Normal, Application code E5341, Course period 2014-01-20-2014-06-05, Kostnad: 35 000 SEK edu.physics.lu.se/fyst23 FYST25, Physics: Solid State Theory, 7,5 ECTS http://utbildning.fysik.lu.se/fyst25 edu.physics.lu.se/fyst25 VT, Part time (50 %), Daytime, Lund, Normal, Application code E5351, Course period 2014-03-25-2014-06-05, edu.physics.lu.se/fyst25 FYST26, Physics: Complex Economy, 7,5 ECTS http://utbildning.fysik.lu.se/fyst26 edu.physics.lu.se/fyst26 VT, Part time (50 %), Daytime, Lund, Normal, Application code E5361, Course period 2014-01-20-2014-03-24, edu.physics.lu.se/fyst26 FYST28, Physics: Laser-based Combustion Diagnostics, 7,5 ECTS http://utbildning.fysik.lu.se/fyst28

11 of 25 2013-06-05 11:31 edu.physics.lu.se/fyst28 VT, Part time (50 %), Daytime, Lund, Normal, Application code E5371, Course period 2014-01-20-2014-03-24, edu.physics.lu.se/fyst28 FYST30, Physics: Quantum information, 7,5 ECTS FYSA31 eller kurspaket FYSC01 eller motsvarande edu.physics.lu.se/fyst30 VT, Part time (50 %), Daytime, Lund, Normal, Application code E5381, Course period 2014-03-25-2014-06-05, edu.physics.lu.se/fyst30 FYST31, Physics: Advanced Processing of Nanostructures, 7,5 ECTS http://www-gu.ftf.lth.se edu.physics.lu.se/fyst31 VT, Part time (50 %), Daytime, Lund, Normal, Application code E5391, Course period 2014-01-20-2014-03-24, edu.physics.lu.se/fyst31 FYST32, Physics: Advanced Optics and Lasers, 7,5 ECTS Description (to catalogue): The aim of the course Advanced Lasers and Optics is to give students knowledge on techniques for creating and manipulating laser light and laser pulses This course provides both theoretical and hands on experience of lasers and non-linear optics. It goes from the basics to the research front within some aspects of the physics of lasers. The students will be exposed to lasers providing ultrashort pulses, non-linear crystals and light modulators. The course includes: Frequency conversion, fast amplitude modulation, frequency modulation and mode-locking and photon optics. Description (to web): The aim of the course Advanced Lasers and Optics is to give students knowledge on techniques for creating and manipulating laser light and laser pulses This course provides both theoretical and hands on experience of lasers and non-linear optics. It goes from the basics to the research front within some aspects of the physics of lasers. The students will be exposed to lasers providing ultrashort pulses, non-linear crystals and light modulators. The course includes: Frequency conversion, fast amplitude modulation, frequency modulation and mode-locking and photon optics.

12 of 25 2013-06-05 11:31 http://www.photonics.fysik.lth.se/advancedopticslasers.htm edu.physics.lu.se/fyst32 VT, Part time (50 %), Daytime, Lund, Normal, Application code E5401, Course period 2014-03-25-2014-06-05, edu.physics.lu.se/fyst32 FYST33, Physics: Electron Transport in Nanostructures, 7,5 ECTS http://www-gu.ftf.lth.se/ FYSA31 and FYST24. English B (advanced) proficiency FYSA31 och FYST24 edu.physics.lu.se/fyst33 VT, Part time (50 %), Daytime, Lund, Normal, Application code E5411, Course period 2014-01-20-2014-03-24, edu.physics.lu.se/fyst33 FYST34, Physics: High Speed Devices, 7,5 ECTS FYSA31, FYST15 and FFF110, or equivalent. English B (advanced) proficiency FYSA31, FYST15 och FFF110, eller motsvarande. Engelska B edu.physics.lu.se/fyst34 VT, Part time (50 %), Daytime, Lund, Normal, Application code E5421, Course period 2014-01-20-2014-03-24, edu.physics.lu.se/fyst34

13 of 25 2013-06-05 11:31 FYST35, Physics: Chrystal Growth and Semiconductor Epitaxy, 7,5 ECTS FYSA31 and FFF110, or equivalent. English B (advanced) proficiency FYSA31 och FFF110, eller motsvarande. Engelska B edu.physics.lu.se/fyst35 VT, Part time (50 %), Daytime, Lund, Normal, Application code E5431, Course period 2014-01-20-2014-03-24, edu.physics.lu.se/fyst35 FYST37, Physics: Advanced Quantum Mechanics, 7,5 ECTS Description (to catalogue): Contents of the course: Fundamental Concepts and Quantum Dynamics: Position, momentum and translation, time evolution, the Schrödinger versus Heisenberg picture, propagators and transition amplitudes, potentials and gauge transformations. Theory of Angular Momentum: Rotations and angular momentum, commutation relations, SO(3), SU(2) and Euler rotations, representations of rotation operator, spherical harmonics as rotation matrices, angular-momentum addition, Bell's inequality, tensor operators, Wigner-Eckart theorem. Symmetries in Quantum Mechanics: Parity, lattice translation, time-reversal. Approximation Methods: the interaction picture, time-dependent perturbation theory. Many-particle Theory and Second Quantization: Identical particles, many-particle states, Bosons, Fermions, field operators. Scattering Theory:The Lippman-Schwinger equation, the Born approximation, optical theorem, method of partial waves, resonance scattering, symmetry considerations, time-dependent formulation. Litterature: J.J. Sakurai: Modern Quantum Mechanics (Addison-Wesley 1994) and disistributed material. Description (to web): Contents of the course: Fundamental Concepts and Quantum Dynamics Theory of Angular Momentum Symmetries in Quantum Mechanics Approximation Methods Many-particle Theory and Second Quantization Scattering Theory. Litterature: J.J. Sakurai: Modern Quantum Mechanics (Addison-Wesley 1994) and disistributed material. http://edu.physics.lu.se/fyst37 Modern Physics, similar to FYSA31, and Quantum Mechanics, similar to FYSN17. English B (advanced) proficiency FYSA31 och FYSN17 eller motsvarande. Engelska B edu.physics.lu.se/fyst37

14 of 25 2013-06-05 11:31 VT, Part time (50 %), Daytime, Lund, Normal, Application code E5441, Course period 2014-03-25-2014-06-05, edu.physics.lu.se/fyst37 FYST38, Physics: Environmental Monitoring, 7,5 ECTS Description (to catalogue): Contents General air quality problems and their environmental and health effects are presented. Discussion of various measurement scenarios. Multiphase processes in air pollution studies. Physical and chemical processes associated with air pollution. Measurement and analytical methods based on physical and chemical characterisation of air pollutants. A project dealing with evaluation of environmental measurement data. Laboratory exercises where high technology research equipment is used or demonstrated. Description (to web): Contents General air quality problems and their environmental and health effects are presented. Discussion of various measurement scenarios. Multiphase processes in air pollution studies. Physical and chemical processes associated with air pollution. Measurement and analytical methods based on physical and chemical characterisation of air pollutants. A project dealing with evaluation of environmental measurement data. Laboratory exercises where high technology research equipment is used or demonstrated. http://edu.physics.lu.se/fyst38 Beskrivning (till katalog): Innehåll: Presentation av olika luftkvalitetsproblem och deras miljö- och hälsoeffekter. Genomgång av olika typiska mätsituationer. Flerfasproblematik speciellt vid luftföroreningsstudier. Fysikaliska och kemiska processer vid luftföroreningar. Genomgång av olika fysikaliska och kemiska mät- och analysmetoder för miljöfrågeställningar. Kursen omfattar föreläsningar, laborationer, demonstrationer samt ett projektarbete (gruppstorlek: 2-3). Föreläsarna hämtas från olika vetenskapliga discipliner och har stark forskningsförankring. Projektarbetet i grupp innefattar en utvärdering av miljömätdata och en muntlig och skriftlig presentation av utvärderingen. Laborations- och demonstrationsdelarna innebär att de studerande bereds tillfälle att direkt arbeta med högteknologisk forskningsutrustning eller få den demonstrerad. Beskrivning (till webb): Innehåll: Presentation av olika luftkvalitetsproblem och deras miljö- och hälsoeffekter. Genomgång av olika typiska mätsituationer. Flerfasproblematik speciellt vid luftföroreningsstudier. Fysikaliska och kemiska processer vid luftföroreningar. Genomgång av olika fysikaliska och kemiska mät- och analysmetoder för miljöfrågeställningar. Kursen omfattar föreläsningar, laborationer, demonstrationer samt ett projektarbete (gruppstorlek: 2-3). Föreläsarna hämtas från olika vetenskapliga discipliner och har stark forskningsförankring. Projektarbetet i grupp innefattar en utvärdering av miljömätdata och en muntlig och skriftlig presentation av utvärderingen. Laborations- och demonstrationsdelarna innebär att de studerande bereds tillfälle att direkt arbeta med högteknologisk forskningsutrustning eller få den demonstrerad. edu.physics.lu.se/fyst38 VT, Part time (50 %), Daytime, Lund, Normal, Application code E5451, Course period 2014-01-20-2014-03-24, edu.physics.lu.se/fyst38 FYST39, Physics: Nanoelectronics, 7,5 ECTS Description (to catalogue): This course deals with the applications of nanoelectronics in a number of areas and it will give knowledge about how devices may be realized and modelled for applications beyond CMOS. For instance, the nanotechnology allows for an heterogeneous materials integration of transistors which may be used to reduce the power consumption in circuit applications. The course will use knowledge in the areas of nanotechnology and circuit design. The

15 of 25 2013-06-05 11:31 use of nanowires and nanotubes will be discussed and different device technologies with potential to reduce the power consumption will be emphasized. Challenges in the THz region will further be discussed. Description (to web): This course deals with the applications of nanoelectronics in a number of areas and it will give knowledge about how devices may be realized and modelled for applications beyond CMOS. For instance, the nanotechnology allows for an heterogeneous materials integration of transistors which may be used to reduce the power consumption in circuit applications. The course will use knowledge in the areas of nanotechnology and circuit design. The use of nanowires and nanotubes will be discussed and different device technologies with potential to reduce the power consumption will be emphasized. Challenges in the THz region will further be discussed. http://www.ka.lth.se/kursplaner/08_09%20eng/fff160.html FYSA31 and FYST34 or equivalent. English B (advanced) proficiency FYSA31 och FYST34 eller motsvarande. Engelska B edu.physics.lu.se/fyst39 VT, Part time (50 %), Daytime, Lund, Normal, Application code E5461, Course period 2014-03-25-2014-06-05, edu.physics.lu.se/fyst39 FYST41, Physics: Photonics and Optical Communication, 7,5 ECTS Description (to catalogue): The course Photonics and optical communication describes the hardware side of optical communication systems. This is achieved by providing knowledge about optical fibres, optical detectors and light sources and how these components are integrated into optical communication systems. The course aims at providing basic knowledge for designing the hardware side of optical communication systems. This is achieved by providing knowledge about optical fibres, optical detectors and light sources and how these components are integrated into optical communication systems. Description (to web): The course Photonics and optical communication describes the hardware side of optical communication systems. This is achieved by providing knowledge about optical fibres, optical detectors and light sources and how these components are integrated into optical communication systems. The course aims at providing basic knowledge for designing the hardware side of optical communication systems. This is achieved by providing knowledge about optical fibres, optical detectors and light sources and how these components are integrated into optical communication systems. http://www.photonics.fysik.lth.se/photonicsopticalcommunication.htm edu.physics.lu.se/fyst41 VT, Part time (50 %), Daytime, Lund, Normal, Application code E5471, Course period 2014-01-20-2014-03-24, edu.physics.lu.se/fyst41 FYST42, Physics: Scanning Probe Microscopy, 7,5 ECTS

16 of 25 2013-06-05 11:31 Description (to catalogue): The course deals with the exciting field of high-resolution microscopy using scanning probe methods. Today these techniques have found their use in a wide range of research areas - from advanced physics and chemistry with atomic precision to applications in biology, such as studies of single cells and viruses. The course will encompass both theoretical and practical aspects of handling and possible applications of SPM. The techniques of STM (Scanning Tunneling Microscopy) and AFM (Atomic Force Microscopy) will be given particular attention. Note: The 1986 Nobel prize in physics was awarded for development of the STM Course content: Introduction to scanning probe microscopy. Instrumentation: positioning devices, probes, data acquisition/electronics and vibration isolation concepts. STM: principle and practical applications, methods for imaging and spectroscopy, sample and probe preparation. AFM: principle and practical applications, methods for imaging, force curves, sample and probe preparation. Related SPM techniques: principles and practical applications Applications of SPM in: condensed matter, chemistry, nanotechnology and biology. Data processing and interpretation. Sensor applications based on SPM. In addition to the lectures, the course also contains laboratory exercises and a project, which ends with a seminar. Description (to web): The course deals with the exciting field of high-resolution microscopy using scanning probe methods. Today these techniques have found their use in a wide range of research areas - from advanced physics and chemistry with atomic precision to applications in biology, such as studies of single cells and viruses. The course will encompass both theoretical and practical aspects of handling and possible applications of SPM. The techniques of STM (Scanning Tunneling Microscopy) and AFM (Atomic Force Microscopy) will be given particular attention. Note: The 1986 Nobel prize in physics was awarded for development of the STM Course content: Introduction to scanning probe microscopy. Instrumentation: positioning devices, probes, data acquisition/electronics and vibration isolation concepts. STM: principle and practical applications, methods for imaging and spectroscopy, sample and probe preparation. AFM: principle and practical applications, methods for imaging, force curves, sample and probe preparation. Related SPM techniques: principles and practical applications Applications of SPM in: condensed matter, chemistry, nanotechnology and biology. Data processing and interpretation. Sensor applications based on SPM. In addition to the lectures, the course also contains laboratory exercises and a project, which ends with a seminar. http://edu.physics.lu.se/fyst42 VT, Halvfart, Dagtid, Lund, Normal, Anm-kod, Period 2014-03-25-2014-06-08, [Antagningsomgång KURSVT14] utbildning.fysik.lu.se/fyst42 VT, Part time (50 %), Daytime, Lund, Normal, Application code E5481, Course period 2014-03-25-2014-06-05, edu.physics.lu.se/fyst42 FYST44, Physics: Nuclear reactor Physics, 7,5 ECTS http://utbildning.fysik.lu.se/fyst44 FYSA31, or similar. English B (advanced) proficiency

17 of 25 2013-06-05 11:31 edu.physics.lu.se/fyst44 VT, Part time (50 %), Daytime, Lund, Normal, Application code E5491, Course period 2014-03-25-2014-06-05, edu.physics.lu.se/fyst44 FYST48, Physics: Optoelectronics, 7,5 ECTS Courses in quantum mechanics and modern physics corresponding to the package FYSC01, and Semiconductor Physics (FYST15). FYSC01 eller motsvarande, samt FYST15 (Halvledarfysik) eller motsvarande. edu.physics.lu.se/fyst48 VT, Part time (50 %), Daytime, Lund, Normal, Application code E5501, Course period 2014-01-20-2014-03-24, edu.physics.lu.se/fyst48 FYSM31, Physics: Master s Degree Project I, 30,0 ECTS http://utbildning.fysik.lu.se/masterprojects FYSM01 or equivalent. English B (advanced) proficiency FYSM01, eller motsvarande. Engelska B Admission guaranteed Platsgaranti VT, Fulltime, Daytime, Lund, Normal, Application code, Course period 2014-01-20-2014-06-08, Kostnad: 70 000 SEK Monday January 20, 2014, 9.15 AM, Sölvegatan 14C in Lund edu.physics.lu.se/examensarbete VT, Part time (50 %), Daytime, Lund, Normal, Application code, Course period 2014-01-20-2015-01-18, Kostnad: 70 000 SEK Monday January 20, 2014, 9.15 AM, Sölvegatan 14C in Lund edu.physics.lu.se/examensarbete FYSM32, Physics: Master s Degree Project II, 30,0 ECTS http://utbildning.fysik.lu.se/masterprojects FYSM31 or equivalent. English B (advanced) proficiency FYSM31, eller motsvarande. Engelska B Admission guaranteed Platsgaranti

18 of 25 2013-06-05 11:31 VT, Fulltime, Mixed, Lund, Normal, Application code, Course period 2014-01-20-2014-06-08, Kostnad: 70 000 SEK Monday January 20, 2014, 9.15 AM, Sölvegatan 14C in Lund edu.physics.lu.se/examensarbete VT, Part time (50 %), Mixed, Lund, Normal, Application code, Course period 2014-01-20-2015-01-18, Kostnad: 70 000 SEK Monday January 20, 2014, 9.15 AM, Sölvegatan 14C in Lund edu.physics.lu.se/examensarbete FYSM60, Physics: Master s Degree Project III, 60,0 ECTS http://utbildning.fysik.lu.se/masterprojects FYSM01 or equivalent. English B (advanced) proficiency FYSM01 eller motsvarande. Engelska B Admission guaranteed Platsgaranti VT, Fulltime, Daytime, Lund, Normal, Application code, Course period 2014-01-20-2015-01-18, Kostnad: 140 000 SEK VT, Part time (50 %), Mixed, Lund, Normal, Application code, Course period 2014-01-20-2016-01-17, Kostnad: 140 000 SEK Monday January 20, 2014, 9.15 AM, Sölvegatan 14C in Lund edu.physics.lu.se/examensarbete PROGRAM NAFYK, Master Programme in Physics, 120,0 ECTS x VT, Fulltime, Daytime, Lund, Normal, Application code, [Application round PROGVT14] Kostnad: 280 000 SEK Monday January 20, 2014, 8.15 AM, Sölvegatan 14C in Lund edu.physics.lu.se/masters NAFYK.ALLM, Master Programme in Physics, General, 120,0 ECTS Description (to catalogue): What if satisfying your curiosity could become your job? At the Department of Physics in Lund, you can be curious and creative, and at the same time make a strategic choice for your career. Physicists in Lund study subjects including the smallest parts of matter, the interface between living cells and electronics, how to create a cleaner environment and how to cure cancer. At the same time, they are satisfying their curiosity. As a Master s student you will become part of a vibrant research community engaged in experiments at major international research facilities and in stateof-the-art laboratories on site. Cutting-edge theoretical studies are also undertaken. You begin your studies by taking a number of courses, some of them general, some more specialised. The programme concludes with a Master s project, for which you spend a full year in a research group or outside the University there are many exciting possibilities within the high-tech industry in the Lund region. You have a lot of freedom to tailor your own education, but we have also put together some strong specialisations: Analytical Physics, Combustion Physics, Mathematical Physics, Theoretical Physics, Nanophysics, Photonics and Lasers, Subatomic Physics and Synchrotron Radiation Physics. Description (to web): What if satisfying your curiosity could become your job? At the Department of Physics in Lund, you can be curious and creative, and at the same time make a strategic choice for your career. Physicists in Lund study subjects including the smallest parts of matter, the interface between living cells and electronics, how to create a cleaner environment and how to cure cancer. At the same time, they are satisfying their curiosity. As a Master s student you will become part of a vibrant research community engaged in experiments at major international research facilities and in state-of-the-art laboratories on site. Cutting-edge theoretical studies are also undertaken. You begin your studies by taking a number of courses, some of them general, some more specialised. The programme concludes with a Master s project, for which you spend a full year in a research group or outside the University there are many exciting possibilities within the high-tech industry in the Lund region.

19 of 25 2013-06-05 11:31 You have a lot of freedom to tailor your own education, but we have also put together some strong specialisations: Analytical Physics, Combustion Physics, Mathematical Physics, Theoretical Physics, Nanophysics, Photonics and Lasers, Subatomic Physics and Synchrotron Radiation Physics. Career prospects Two international research institutes are being constructed in Lund over the next few years: MAX IV - a synchrotron radiation laboratory, and ESS - the European Spallation Source. This will make Lund a centre for, among other things, materials science and will attract new entrepreneurs and research groups. The two institutes will add to the already existing opportunities for you as a graduate of this Master's programme. Areas in which graduates find employment include information and communication technology, manufacturing, space exploration, life sciences, medicine, pharmacy, energy production, the environment, electronics and materials science. http://www.edu.physics.lu.se/masters/general General and A BA/BSc in physics, mathematics or similar, with 90 ECTS in Physics and/or mathematics. English B (advanced) proficiency kandidatexamen i fysik eller angränsande ämne, till exempel matematik. 90 hp i fysik och matematik. Dessutom krävs Eng B based on previous university/college studies and other merits such as letters of recommendation and statement of purpose based on previous university/college studies and other merits such as letters of recommendation and statement of purpose VT, Fulltime, Daytime, Lund, Normal, Application code 58000, [Application round MASTERVT14] Kostnad: 280 000 SEK Monday January 20, 2014, 8.15 AM at Sölvegatan 14C in Lund edu.physics.lu.se/masters NAFYK.MAVE, Master Programme in Physics, Materials science, 120,0 ECTS Description (to catalogue): Materials are what make up everything around us and their properties are critical to the performance of any system or device where they are used. Almost every aspect of modern society is touched by a technology made possible by advances in materials. For example, the internet and mobile phones would not be possible without optical fibres and semiconductors. The study of materials is based on the relationship between the properties of a material (which determine its functionality), its structure, and the way that the material is assembled. Materials science is inherently multidisciplinary and includes subjects from both basic sciences and engineering, and from physics and chemistry. The Master s programme in Materials Science is a flexible and interdisciplinary programme for postgraduate students with a strong interest in learning about how important properties of materials depend upon the materials structure and constituents. The characterisation of materials by spectroscopy, diffraction and microscopy is an important dimension in the programme, and the new materials science facilities - the MAX IV synchrotron radiation laboratory and the planned European Spallation Source (ESS) for neutronbased research - are in focus. It is possible to combine theoretical or computational studies with experimental approaches within the programme. Description (to web): Materials are what make up everything around us and their properties are critical to the performance of any system or device where they are used. Almost every aspect of modern society is touched by a technology made possible by advances in materials. For example, the internet and mobile phones would not be possible without optical fibres and semiconductors. The study of materials is based on the relationship between the properties of a material (which determine its functionality), its structure, and the way that the material is assembled. Materials science is inherently multidisciplinary and includes subjects from both basic sciences and engineering, and from physics and chemistry. The Master s programme in Materials Science is a flexible and interdisciplinary programme for postgraduate students with a strong interest in learning about how important properties of materials depend upon the materials structure and constituents. The characterisation of materials by spectroscopy, diffraction and microscopy is an important dimension in the programme, and the new materials science facilities - the MAX IV synchrotron radiation laboratory and the planned European Spallation Source (ESS) for neutronbased research - are in focus. It is possible to combine theoretical or computational studies with experimental approaches within the programme. The goal of the Master s programme is to produce well-rounded materials scientists who are able to apply the principles of materials science for carrying out engineering and/or research projects. The programme emphasises application of advanced technologies in materials science. The close proximity to large-scale facilities and excellent materials science research groups provides excellent opportunities for inspiring Master s thesis research projects. Career prospects Materials science is an important field for a variety of areas of science and engineering, and graduates will be qualified for employment in fields ranging from industry to research laboratories in areas such as astrophysics, communciations, life sciences, energy-related materials and at facilities such as the MAX IV laboratory and the European Spallation Source (ESS). Both of these large laboratories require trained staff with a good knowledge of experimental techniques in materials

20 of 25 2013-06-05 11:31 science and physics in general. Graduates of the programme will be well qualified for PhD programmes in Physics and Physical Chemistry. http://www.edu.physics.lu.se/masters/materials-science General and A BA/BSc in physics, mathematics or similar, with 90 ECTS in Physics and/or mathematics. English B (advanced) proficiency kandidatexamen i fysik eller angränsande ämne, till exempel matematik. 90 hp i fysik och matematik. Dessutom krävs Eng B based on previous university/college studies and other merits such as letters of recommendation and statement of purpose based on previous university/college studies and other merits such as letters of recommendation and statement of purpose VT, Fulltime, Daytime, Lund, Normal, Application code, [Application round PROGVT14] Kostnad: 280 000 SEK Monday January 20, 2014, 8.15 AM, Sölvegatan 14C in Lund edu.physics.lu.se/masters VT, Fulltime, Daytime, Lund, Normal, Application code 58010, [Application round MASTERVT14] Kostnad: 280 000 SEK Monday January 20, 2014, 8.15 AM at Sölvegatan 14C in Lund edu.physics.lu.se/masters NAFYK.PAFY, Master Programme in Physics, Particle Physics, 120,0 ECTS Description (to catalogue): What are the fundamental constituents of matter and what forces act upon them? Particle physics is the subject that addresses the fundamental principles governing our world; forces and constituents. This understanding is formulated mathematically as theories (previous called laws of nature). The subject matter evolves through experimental explorations and development of theories and models. Today our understanding is described by the Standard Model theory, which has an exceptional predictive power, but is incomplete. We explore the predictions of the Standard Model and seek a more complete understanding, i.e. beyond the Standard Model. In practice we conduct the research in global experimental collaborations. Today these experiments are mainly done at the LHC collider at CERN. At the Physics Department at Lund University the Particle Physics Division is involved in two major experiments at the LHC; ATLAS and ALICE. The ATLAS experiment is devoted to looking for physics beyond the Standard Model, whereas the ALICE experiment is designed to look at a new state of matter called quarkgluon plasma. As a Master s student in particle physics you will be given the opportunity to follow the progress of those experiments and to take an active part in looking at the data as it is recorded by the experiments. The students should be prepared to visit foreign research centres such as CERN for shorter periods. Description (to web): What are the fundamental constituents of matter and what forces act upon them? Particle physics is the subject that addresses the fundamental principles governing our world; forces and constituents. This understanding is formulated mathematically as theories (previous called laws of nature). The subject matter evolves through experimental explorations and development of theories and models. Today our understanding is described by the Standard Model theory, which has an exceptional predictive power, but is incomplete. We explore the predictions of the Standard Model and seek a more complete understanding, i.e. beyond the Standard Model. In practice we conduct the research in global experimental collaborations. Today these experiments are mainly done at the LHC collider at CERN. At the Physics Department at Lund University, the Particle Physics Division is involved in two major experiments at the LHC; ATLAS and ALICE. The ATLAS experiment is devoted to looking for physics beyond the Standard Model, whereas the ALICE experiment is designed to look at a new state of matter called quarkgluon plasma. As a Master s student in particle physics you will be given the opportunity to follow the progress of those experiments and to take an active part in looking at the data as it is recorded by the experiments. The students should be prepared to visit foreign research centres such as CERN for shorter periods. Career prospects The programme is ideal as the beginning of an academic career in particle physics, but also opens a door to other careers in a diversified society. During the programme you will gain skills in physics and mathematics as well as computers, information technology, e-science and other cutting-edge technologies used in the experiments. In addition to preparing the students for PhD studies in the field, the programme will also provide a suitable start for a future career as one of the international laboratories. As the experiences are performed in large international collaborations, the programme is also intended for those who plan a future working career in an international environment. The programme also provides the same career options as the Master's programme in Physics - General. http://www.edu.physics.lu.se/masters/particlephysics