Difference between revisions of "Main Page/PHYS 4061"

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<li>SC/PHYS 3040 6.00.</li>
 
<li>SC/PHYS 3040 6.00.</li>
 
</ul>
 
</ul>
 
<h2> Course Director</h2>
 
<p>Matthew George</p>
 
<p>122 Petrie</p>
 
<p>mgeorge@yorku.ca</p>
 
 
<h2>Teaching Assistants</h2>
 
<table width=600>
 
<tr><td> Adam Carew</td>  <td> Kosuke Kato </td>  </tr>
 
<tr><td> 107 Petrie </td>    <td> 309 Petrie </td>  </tr>
 
<tr><td> acarew@yorku.ca</td>  <td> kosukeka@yorku.ca </td> </tr>
 
</table>
 
 
<h2>Schedule</h2>
 
<table>
 
<tr><td width=150><b>Labs</b></td> <td width=100>2:30pm - 5:30pm</td> <td width=150>Mondays and Tuesdays </td> <td width=70>Petrie 226 </td></tr>
 
<tr><td><b>Lecture</b></td><td>2:30pm - 3:20pm</td><td>Fridays</td><td>CB 120</td></tr>
 
<tr><td><b>Tutorial</b></td><td>2:30pm - 3:20pm</td><td>Wednesdays</td><td>CB 120</td></tr>
 
<tr><td><b>Office Hours</b></td><td></td><td></td><td></td></tr>
 
<tr><td><i>Course Director</i></td><td>1:30pm - 2:30pm</td><td>Wednesdays</td><td>Petrie 122</td></tr>
 
<tr><td><i>TA- Adam Carew</i></td><td>12:30 - 1:30pm</td><td>Fridays</td><td>Petrie 107</td></tr>
 
<tr><td><i>TA- Kosuke Kato</i></td><td>1:30 - 2:30pm</td><td>Fridays</td><td>Petrie 309</td></tr>
 
</table>
 
 
<p>Consult the [[Media:Schedule-revised.pdf|Schedule Calendar]] for detailed information on lab sessions, due dates, and lecture and tutorial dates.</p>
 
<p>During the first week, the TAs will organize you into groups of two, and assign a starting experiment for each group. There will likely be 10 groups, but only 9 experiments, hence each group will have one week off during the term. Each group will start with the assigned experiment and cycle through the remaining experiments sequentially. The order of experiments is given in the lab manual.</p>
 
<p>Students will complete a common data analysis tutorial (Lab 0) based on ''Mathematica'' during
 
the first two sessions and submit a lab report based on the completed tutorial and relevant
 
exercises.</p>
 
 
<h2>Grades</h2>
 
<table>
 
<tr><td width=150>Lab Reports</td><td width=50>65%</td></tr>
 
<tr><td>[[Main Page/PHYS 4061/Homework|Homework]]</td><td>10%</td></tr>
 
<tr><td>[[Main Page/PHYS 4061/Final Exam|Final Exam]]</td><td>25%</td></tr>
 
</table>
 
 
<h2>Laser Safety</h2>
 
<p>Each experiment in this course uses a laser. Most of the lasers used are Class 3b. Understanding what this means and how to protect yourself is an important lesson of this course. You will need to review the Laser Safety Tutorial (see the appendix of the lab manual), and during the first week, the TAs will lead a discussion on Laser Safety. A quiz based on the tutorial will be held during the 3rd laboratory session.</p>
 
<p><b>Only students who have understood the safety precautions and successfully completed the quiz will be permitted to take the course.</b></p>
 
 
<h2>Course Content</h2>
 
<p>Students will be exposed to common a data analysis tutorial (based on
 
''Mathematica'') during the fIrst two weeks of the term. Subsequently, students will work in groups of two and cycle through 9
 
experiments related to laser spectroscopy. Since there are 11 groups of two, and only 9 experiments, each group will enjoy two weeks without performing a laboratory exercise. <b>Note that this does not change the due date for your reports.</b></p>
 
<p>Laboratory work will include pre-lab exercises, data analysis, interpretation, and answers to specific questions in the manual. Reports do not require extensive written descriptions. <b>''Mathematica'' should be used for all data analysis.</b></p>
 
<p>The laboratory component of the course emphasizes experimental techniques related to laser spectroscopy and hands-on skills.</p>
 
<p>The lecture component introduces theoretical concepts related to
 
instrumentation such as gas lasers, diode lasers, laser beam propagation,
 
Fabry -Perot resonators, electro-optic modulators, acousto-optic
 
modulators and optical detectors.</p>
 
<p>The tutorials cover theoretical concepts related to laboratory experiments.</p>
 
 
<h2>Textbook and References and Notes</h2>
 
<p>The principal resource is a comprehensive laboratory manual that can be
 
purchased from the York Bookstore.</p>
 
<p>There is no textbook. Here is a [[Main Page/PHYS 4061/references|useful list of references]].</p>
 
<ul>
 
<li>[[media:Lecture 2-Gaussian beams.pdf|Lecture 2]]</li>
 
</ul>
 
 
<h2>Lab Reports</h2>
 
<p>The grade for lab reports will be based on attendance and content.</p>
 
<p>The first lab report is related to the data analysis tutorial that will be
 
completed over three, 3-hour lab sessions. Subsequent experiments will
 
each involve two, 3-hour lab sessions.</p>
 
<p>The requirements and format for lab reports are clearly specified in the
 
section titled "Format of Lab Reports" in the laboratory manual.</p>
 
<p><b>Graduate students are required to complete additional exercises.</b></p>
 
<p>Please consult TAs if the requirements are not clear.</p>
 
<p>The first lab report (on the ''Mathematica'' tutorial) requires submission in
 
hardcopy and in electronic format. Part of the grade for this report will
 
depend on the functionality of the ''Mathematica'' notebooks that students
 
will submit in electronic form. All other labs require only hard copy
 
submissions.</p>
 
 
<h2>Due Dates</h2>
 
<p>Pre-lab exercises and lab reports should be submitted to the TAs in
 
PSE 226 by 2:30 PM, at the beginning of lab sessions. Please see
 
specified due dates for lab reports in the Schedule section above.</p>
 
<p>Lab reports submitted by 4:30 PM on the day after the due date will
 
incur a penalty of 10%. Two days after, a penalty of 25%. Three days or more, a mark of zero will be assigned. Late lab reports can be submitted in the Tuesday lab session, or in Petrie 128.</p>
 
<p>Exceptions will require the approval of the instructor.<b> Exceptions will be granted only under exceptional circumstances.</b></p>
 
<p><b>TAs will not accept e-mail submission of lab reports.</b></p>
 
<p>Graded reports will generally be returned one week after the due date.</p>
 
 
<h2>Attendance</h2>
 
<p>TAs will record attendance. Students are expected to be present during the
 
entirety of all 3-hour lab sessions or until the laboratory work is
 
completed.</p>
 
<p><b>Unless special arrangements are made with the course instructor,
 
students arriving more than 10 minutes after the beginning of a
 
laboratory session will be deemed as being absent.</b></p>
 
<p>If a student is absent even for a single lab session or leaves a lab session
 
before the work is completed, the score on the relevant lab report will be
 
zero. If a lab is completed within the 1 st session, TAs can certify that
 
attendance is not required during the 2nd session.</p>
 
 
<h2>Make-up Labs</h2>
 
<p>Makeup labs are intended to cover situations in which there is equipment
 
malfunction or factors beyond the control of students that prevented the
 
completion of an experiment and in cases where approval from the course
 
instructor is obtained due to medical reasons.</p>
 
<p>Students missing a lab session due to medical reasons are required to file
 
an attending physician statement with the course instructor (not to be
 
confused with a doctor's note) and demonstrate a convincing reason for
 
absence to schedule a makeup lab. The attending physician's statement
 
can be obtained from the registrar's office.</p>
 
<p>Students approved for a makeup lab by the course instructor should sign
 
up for a makeup lab with the TAs.</p>
 
 
<h2>Academic Integrity</h2>
 
<p>Each group is expected to perform the experiments together, with each student understanding everything that happens in the lab. Try to balance the in-lab work load fairly. The data for each experiment can be shared between partners. Students are encouraged to discuss their reports with partners, other students, TAs, and the course director.<b>However, each student is expected to submit their own lab report, which must be completed individually.</b></p>
 
<p><b>COPYING FROM OTHER STUDENTS OR FROM PREVIOUS LAB REPORTS IS A SERIOUS OFFENCE.</b></p>
 
<p>Students are urged to visit the Academic Integrity web site at York University
 
(http://www.yorku.ca/tutorial/academic_integrityl) and complete the Academic Integrity
 
Tutorial.</p>
 
 
<h2>Strategies for PHYS 4061/5061</h2>
 
<p>Like PHYS 2213 3.0, this course meets the defInition of a three-credit lab course in the Faculty
 
of Science. According to the defInition, a one-credit lab course implies three hours of laboratory
 
work per week over the duration of the semester. For PHYS 406115061, six hours of laboratory
 
work per week will constitute the equivalent of two credits. The lecture module (1 lecture per
 
week) will constitute an additional credit.</p>
 
<p>Since this an upper level course, the requirements will be more intensive compared to
 
introductory courses (PHYS 2213). Therefore, it is particularly important that students adopt
 
suitable strategies that are summarized below.</p>
 
<ol>
 
<li> Experiments are designed so that they can be completed within two laboratory sessions.
 
However, efficient utilization of time is a key requirement.</li>
 
<li>Please prepare thoroughly for each lab by completing pre-lab exercises, reviewing tutorials,
 
reading through the manual and becoming familiar with data taking requirements.</li>
 
<li>Do not leave the lab until you understand how the data you have obtained can be used for
 
graphical analysis.</li>
 
<li>At the end of the first lab session for each experiment, all student groups will benefit by
 
discussing the state of the experiment with the TAs and developing suitable plans for the 2nd lab
 
session.</li>
 
<li><p>Successful completion of data analysis is the key to this course. ''Mathematica'' notebooks are
 
provided throughout the lab manual. Students should be able to adapt these to analyze data
 
following the laboratory sessions dedicated to data analysis.</p>
 
<p><b>Students with an understanding of the required graphs should spend no more
 
than 30 minutes attempting to plot the results. If difficulties are encountered, they should
 
immediately attend an office hour scheduled by the TAs. The importance of interaction
 
with the TAs for data analysis cannot be emphasized in stronger terms.</b></p></li>
 
<li>Students who review the content of lectures and tutorials on a regular basis and complete
 
homework assignments should find the written exam to be straightforward.</li>
 
</ol>
 

Latest revision as of 14:40, 8 January 2014

PHYS 4061/5061: Experimental Techniques in Laser Physics

Involves a selection of experiments in laser physics, with emphasis on techniques necessary for trapping neutral atoms with lasers. One lecture hour and one tutorial hour and two three hour laboratory sessions per week. Integrated with: GS/PHYS 5061 3.00.

Students taking this course can expect to use state of the art equipment and gain a working knowledge of conventional experimental techniques in atomic physics and laser spectroscopy. This background should be adequate preparation for working in research laboratories in related fields and industry related to photonics.

Prerequisites:

  • SC/PHYS 2211 1.00 and SC/PHYS 2212 1.00, or SC/PHYS 2213 3.00
  • SC/PHYS 2020 3.00
  • SC/PHYS 2060 3.00

Corequisite:

  • SC/PHYS 3040 6.00.