Nonlinear Optics Spring-2013
(→Announcements) |
(→Homework Assignments) |
||
(23 intermediate revisions by one user not shown) | |||
Line 21: | Line 21: | ||
18 Jan. : HW 2 is posted. I will email you all a pdf of some reading for tuesday. Before we dive into nonlinear tensors, we will review birefringence and its application to phase matching. | 18 Jan. : HW 2 is posted. I will email you all a pdf of some reading for tuesday. Before we dive into nonlinear tensors, we will review birefringence and its application to phase matching. | ||
+ | |||
+ | 26 Jan. : HW 3 is posted. I have to help out with declaration day at the student center tuesday afternoon, so I will have to move my office hours to thursday. The homework will be due friday. | ||
+ | |||
+ | 3 Feb: HW 4 is posted. | ||
+ | |||
+ | 3 Feb: HW 4 is posted. | ||
+ | |||
+ | 18 March: HW 6 is posted. | ||
+ | |||
+ | 23 March: Midterm is posted. I changed my mind about the midterm, and it is now just a take-home. I figure if you're doing the work to do the poblems and you've figured them out, you might as well just turn them in and we can save class time for new material. The test will be due at beginning of class thursday, I will be out of town from end of colloquium tuesday through wednesday night. Ground rules: | ||
+ | |||
+ | Open books, notes and mathematica. | ||
+ | |||
+ | No internet or journals, no communication with your fellow students or other people. | ||
+ | |||
+ | The problems are not numeric in nature, but feel free to make plots if it helps you understand or get across what you are doing. | ||
+ | |||
+ | Ask me for any clarifications, and I will post any clarifications (and maybe hints) on our course website. | ||
+ | |||
+ | HW6 can be turned in the following Monday by 5pm. | ||
==Office hours== | ==Office hours== | ||
Office hours: | Office hours: | ||
− | + | Monday 2:00-4:00 We have the Physics Library for this slot - I will typically be waiting in my office, but if more than one person shows up, we can use the library for working as a group. | |
− | + | ||
Wednesday 11:00-12:00 and 1:00 - 3:00 | Wednesday 11:00-12:00 and 1:00 - 3:00 | ||
Line 45: | Line 64: | ||
{{PDF Table Item|filename=Ph585-13-hw2-assign.nb|title=Homework 2 due end of day Thursday 24 Jan}} | {{PDF Table Item|filename=Ph585-13-hw2-assign.nb|title=Homework 2 due end of day Thursday 24 Jan}} | ||
+ | |||
+ | {{PDF Table Item|filename=Ph585-13-hw3-assign.nb|title=Homework 3 due end of day Friday 1 Feb}} | ||
+ | |||
+ | {{PDF Table Item|filename= LiIO3_Datasheet.pdf|title=LiIO3 datasheet. This has the dispersion information in it. }} | ||
+ | |||
+ | {{PDF Table Item|filename=Ph585-13-hw4-assign.nb|title=Homework 4 due end of day Friday 8 Feb}} | ||
+ | |||
+ | {{PDF Table Item|filename=Ph585-13-hw5-assign.nb|title=Homework 5 due end of day Thursday 21 Feb}} | ||
+ | |||
+ | {{PDF Table Item|filename=Ph585-13-hw6-assign.nb|title=Homework 6 due end of day Monday 1 April}} | ||
+ | |||
+ | {{End PDF Table}} | ||
+ | |||
+ | ==Take-home midterm== | ||
+ | |||
+ | {{Start PDF Table}} | ||
+ | |||
+ | {{PDF Table Item|filename=Ph585-13-takehome.nb|title=Take-home midterm, due at beginning of class Thursday 28 March}} | ||
{{End PDF Table}} | {{End PDF Table}} | ||
Line 58: | Line 95: | ||
{{PDF Table Item|filename= Class3_SHG_propagation_notes.pdf|title=Lecture 3: simple version of second harmonic generation, phase mismatch}} | {{PDF Table Item|filename= Class3_SHG_propagation_notes.pdf|title=Lecture 3: simple version of second harmonic generation, phase mismatch}} | ||
+ | |||
+ | {{PDF Table Item|filename= NLO585_class4_birefringence.pdf|title=Lecture 4: birefringence and calculation of angle-dependent index}} | ||
+ | |||
+ | {{PDF Table Item|filename= NLO585_class5_NLtensors.pdf|title=Lecture 5: phase matching and nonlinear tensors}} | ||
+ | |||
+ | {{PDF Table Item|filename= NLO585_class6_NLmixing.pdf|title=Lecture 6: calculation of d_eff and NL mixing equations}} | ||
+ | |||
+ | {{PDF Table Item|filename= NLO585_class7_NLMixingsolutions.pdf|title=Lecture 7: NL mixing solutions for sum mixing, SHG and OPA}} | ||
+ | |||
+ | {{PDF Table Item|filename= NLO585_class8_QPM-focusing.pdf|title=Lecture 8: quasi-phasematching and focusing effects}} | ||
+ | |||
+ | {{PDF Table Item|filename= NLO585_class9_Fourier_transforms.pdf|title=Lecture 9: Fourier transforms}} | ||
+ | |||
+ | {{PDF Table Item|filename= NLO585_class10_pulse_propagation.pdf|title=Lecture 10: pulse propagation and frequency conversion}} | ||
+ | |||
+ | {{PDF Table Item|filename= NLO585_class11_pulse_characterization_NL_index.pdf|title=Lecture 11: pulse characterization and NL index}} | ||
+ | |||
+ | {{PDF Table Item|filename= NLO585_class12_tensor_chi3_JonesV_and_NER.pdf|title=Lecture 12: tensor chi3, Jones Vectors and Nonlinear ellipse rotation}} | ||
+ | |||
+ | {{PDF Table Item|filename= NLO585_class13_NL_index_mechanisms.pdf|title=Lecture 13: Mechanisms for NL index}} | ||
+ | |||
+ | {{PDF Table Item|filename= NLO585_class14_guided_waves.pdf|title=Lecture 14: review of guided wave propagation (will finish after break) }} | ||
+ | |||
+ | {{PDF Table Item|filename= NLO585_class15-16_nonlinear propagation.pdf|title=Lectures 15 and 16: slide from Dan Adams' lectures on nonlinear pulse propagation. }} | ||
{{End PDF Table}} | {{End PDF Table}} | ||
Line 82: | Line 143: | ||
Please note that thee is a bug in the Fourier[ ] routine (FFT) in v7.0.0. This does not show in earlier versions, and was fixed in 7.0.1 and later. (9.0.0 is the current version) | Please note that thee is a bug in the Fourier[ ] routine (FFT) in v7.0.0. This does not show in earlier versions, and was fixed in 7.0.1 and later. (9.0.0 is the current version) | ||
− | + | 2013 files (these have been updated to run in v8.) | |
{{Start PDF Table}} | {{Start PDF Table}} | ||
+ | |||
+ | {{PDF Table Item|filename=Phase_match_KDP.nb|title= Phase_match_KDP.nb: Phase matching program for KDP crystals }} | ||
+ | |||
+ | {{PDF Table Item|filename=Mixing_solutions.nb|title= Mixing_solutions.nb: solutions of simultaneous NL eqns for doubling }} | ||
+ | |||
+ | {{PDF Table Item|filename=Polarization tools.nb|title=polarization tools.nb: Jones vectors and matrices for polarization modeling }} | ||
+ | |||
+ | {{PDF Table Item|filename=Fft demo.nb|title=fft demo.nb: demonstrate numerical Fourier transforms (FFT) }} | ||
+ | |||
<!-- | <!-- | ||
{{PDF Table Item|filename=Nonpert_nlo_response.nb|title= Nonpert_nlo_response.nb: classical model of time dependent nonlinear response (3rd order), solved with NDSolve. Includes FFT to show harmonic structure }} | {{PDF Table Item|filename=Nonpert_nlo_response.nb|title= Nonpert_nlo_response.nb: classical model of time dependent nonlinear response (3rd order), solved with NDSolve. Includes FFT to show harmonic structure }} | ||
Line 91: | Line 161: | ||
examples of working with vectors and matrices in Mathematica.}} | examples of working with vectors and matrices in Mathematica.}} | ||
− | |||
− | |||
− | |||
− | |||
--> | --> |
Latest revision as of 17:59, 23 March 2013
Main Page | > | Physics Course Wikis |
Course Information
Professor: Chip Durfee
Office: Meyer Hall 330
Meeting Times: Tuesday, Thursday 11:00-12:15
Room: Marquez Hall 322
Announcements
11 Jan.: The slides that I presented on the first day are posted below in the lecture notes section.
I will post the first homework soon. For Tuesday's class, please read section 1.1 - 1.4. Tuesday we will work through the classical oscillator, linear and nonlinear.
15 Jan.: I posted a short homework (one problem), due by end of day Thursday. I will be available during office hours today (Tuesday) and Wednesday to help you work on the calculations. To give an introduction to NLO, we will be considering first the problem of second harmonic generation at a basic level, before diving into the more complete treatment in the book that uses tensors for the NL susceptibility. Reading for Thursday: 2.1 and 2.2. Section 2.2 is for sum frequency generation, but our treatment in class will be for SHG.
18 Jan. : HW 2 is posted. I will email you all a pdf of some reading for tuesday. Before we dive into nonlinear tensors, we will review birefringence and its application to phase matching.
26 Jan. : HW 3 is posted. I have to help out with declaration day at the student center tuesday afternoon, so I will have to move my office hours to thursday. The homework will be due friday.
3 Feb: HW 4 is posted.
3 Feb: HW 4 is posted.
18 March: HW 6 is posted.
23 March: Midterm is posted. I changed my mind about the midterm, and it is now just a take-home. I figure if you're doing the work to do the poblems and you've figured them out, you might as well just turn them in and we can save class time for new material. The test will be due at beginning of class thursday, I will be out of town from end of colloquium tuesday through wednesday night. Ground rules:
Open books, notes and mathematica.
No internet or journals, no communication with your fellow students or other people.
The problems are not numeric in nature, but feel free to make plots if it helps you understand or get across what you are doing.
Ask me for any clarifications, and I will post any clarifications (and maybe hints) on our course website.
HW6 can be turned in the following Monday by 5pm.
Office hours
Office hours:
Monday 2:00-4:00 We have the Physics Library for this slot - I will typically be waiting in my office, but if more than one person shows up, we can use the library for working as a group.
Wednesday 11:00-12:00 and 1:00 - 3:00
Course Material
Syllabus and Reading List
These downloads require Adobe Acrobat Reader
|
Homework Assignments
Take-home midterm
These downloads require Adobe Acrobat Reader
|
Lecture Notes and Slides 2013
These downloads require Adobe Acrobat Reader
|
Lecture Notes 2011
These downloads require Adobe Acrobat Reader
|
Mathematica Demos
You can use these as a template for programming you want to do. I would like you to attribute me when you do though. These aren't actually pdf's. Do a "save link as" to save these to your computer, then open with Mathematica. In most cases the output has been deleted to save server space, so you have to run the code to see the output. Please note that thee is a bug in the Fourier[ ] routine (FFT) in v7.0.0. This does not show in earlier versions, and was fixed in 7.0.1 and later. (9.0.0 is the current version)
2013 files (these have been updated to run in v8.)
These downloads require Adobe Acrobat Reader
|
2007 files (written in v5.2, but can be read into v6 or v7 and updated)
These downloads require Adobe Acrobat Reader
|
Links to literature in nonlinear optics
Feel free to add to the list of database and journal sites. Let me know if any links are broken.
Journal Database pages
Use these to go to papers where you know the reference, or for searching for related papers
Scitation: American Institute of Physics journals search
Journal pages
You can go to these to browse current issues or to look up specific references. These journals are European journals that are not indexed through Scitation or Optics Infobase.
Journal Articles
Each one of you should add references you think would be of general interest to this list. We will have a rotating schedule for when it will be your turn. (Please note that this will be part of your grade...)
Click 'edit' at the right to add references. Include a short description, make a new category if it makes sense. Links only - don't upload actual pdf's please. Put your last name and posting date along with the citation.
Development of the theory, historical
- Midwinter et al, British J. Applied Phys v16 p1135 (1965) "The effects of phase matching method and of uniaxial crystal symmetry on the polar distribution of second-order non-linear optical polarization" Derivation of the variation of dEff in nonlinear crystals with beam direction. (Durfee 1/12/2007) Midwinter (1965)
Optical parametric amplifiers
- Brida, et al. Optics Express V15 p15035 (2007) "Generation of broadband mid-infrared pulses from an optical parametric amplifier" Brida OPA 1 (Durfee 1/19/09)-This is the paper we are working through in class as an example of an ultrafast OPA.
High-order harmonic generation
- Corkum, Physical Review Letters V71 p1994 (1993) "Plasma Perspective on strong-field multiphoton ionization" Corkum (1993) (Durfee 1/22/07)-This is one of the first papers with a simple, semi-classical model of high-order harmonic generation and other strong-field effects that take place during tunneling ionization.
- Kapteyn, Henry: slides from a talk at LLBL (2005) "Coherent XUV Radiation: High-harmonic generation" Kapteyn HHG talk (Durfee 1/23/07) - This is a nice summary of the high-order harmonic generation process and some of the recent developments of the field.
Self-focusing, spatial solitons
- Neshev et al, Optics Letters V28 p710 (2003) "Spatial solitons in optically induced gratings" On Campus Link (Murrell 1/16/07)-Interesting Paper on a nonlinear optics application from the first lecture.
- Chin "et al", Can. J. Phys. 83:863-905 (2005) "The propagation of powerful femtosecond laser pulses in optical media: physics, applications, and new challenges" [1] (A. Meier 4/27/11)-A review of filamentation.
Ultrafast Nonlinear Optics
- S. Zhang, et al, Optics Letters V30 p2852-2854 (2005) "Passive mode locking at harmonics of the free spectral range of the intracavity filter in a fiber ring laser," On Campus Link (Murrell 1/29/07)-An experimental writeup on a passivly mode locked ring laser via polarization controllers in the cavity.
- opticsinfobase & osa Dan Adams (2/22) These articles describes the process of measuring ultrashort light pulses by using a frequency resolved optical gate that consists of a nonlinear crystal. Many types of this device exist and have been cited in class.
- T. Brabec, et al, Optics Letters, Vol. 17, Issue 18, pp. 1292-1294 (1992) "Kerr lens mode locking" opticsinfobase (B. Galloway 1/25/2011). An article describing an optical system in a laser oscillator to allow passive mode locking using a Kerr lens and an aperture. Aspects like dependence of gain on intracavity power and the stability parameter are included in the analysis.
- H. Hirori, et al, "Single Cycle THz Pulses with amplitudes exceeding 1MV/cm generated by optical rectification in LiNbO3" arxiv (K. Strovink 2/14/2011). Describes a method for creating coherent, ultrashort pulses at 1THz.
Imaging with Harmonic Generation
- J. Squier, M. Muller, Applied Optics V38 p5789-5794 (1999) "Third-Harmonic generation imaging of laser-induced breakdown in glass," On Campus Link (Hrin 1/31/07)-A description of how harmonic generation can be used to image sub-micron structures and features.
- Kuang Yao Lo, Juh Tzeng Lue, Physical Review B V 51 (4) p2467-2472 (1995) "Quantum size effect on optical second-harmonic generation in small metal particles," On Campus Link (Hrin 2/21/07)-Theoretical and experimental work looking at SHG from quantum confined systems
Stimulated Brillouin Scattering
- V. I. Kovalev and R. G. Harrison, Opt. Lett. 30, 3389-3391 (2005) "Origin of temporally stable continuous-wave Stokes emission in stimulated Brillouin scattering: evidence of spectral self-phase conjugation," Kovalev & Harrison (2005) (Hoffman 2/27/07)- Useful Article talking about SBS and phase conjugation.
- A. A. Fotiadi, P. Megret, and M. Blondel, Opt. Lett. 29, 1078-1080 (2004) "Dynamics of a self-Q-switched fiber laser with a Rayleigh-stimulated Brillouin scattering ring mirror," Fotiadi, Megret, & Blondel (2004) (Hoffman 2/27/07)- Interesting Article using SBS to Q-switch a fiber laser.
Nonlinear Surface Plasmons
- D. Sarid, Appl. Phys. Lett. 39, 889 (1981) "The nonlinear propagation constant of a surface plasmon," Sarid (1981) (Perzinski 3/29/2007)-A description for an expression for the change in the propagation constant.
- D. Sarid, R. T. Deck, and J. J. Fasano, J. Opt. Soc. Am. 72, 1345- (1982) "Enhanced nonlinearity of the propagation constant of a long-range surface-plasma wave," Sarid (1982) (Perzinski 3/29/2007)-A description of the propagation constant as a function of the thickness of the metal film bounded by a nonlinear semiconductor.
- H. J. Simon, D. E. Mitchell, and J. G. Watson, Phys. Rev. Lett. 33, 1531 - 1534 (1974), "Optical Second-Harmonic Generation with Surface Plasmons in Silver Films," Simon (1974) (Perzinski 3/29/2007)-First experimental investigation of coupling SHG to surface plasmons on silver films.
Misc cool papers
- M. McCall, A. Favaro, P. Kinsler and A. Boardman, J. Opt. v13, 024003 (2011) "A spacetime cloak, or a history editor." McCall (2011) (Durfee 1/19/2011)-How to hide from a time-machine?
- R.W. Boyd and D. Gauthier, Science, 326,1074-1077 (2009) "Controlling the Velocity of Light Pulses," Boyd (2009) (Lemmon, 5/12/2011) -Nice review of slow and fast light techniques and applications
Other course Links
JavaOptics: a nice collection of optics-related demonstrations