For the SENIOR Physics and Chem/Phys concentrators among you (but also for non-seniors, for future reference):
I checked through all of the seniors' records and emailed you of any remaining concentration requirements. But just as a double check, in case I missed anyone, here are some general comments and caveats:
1. Even though I checked through things, you should also check through the requirements listed in the Handbook.
2. Ignore the "Advising Report" in my.harvard, as far as the Physics concentration reqs go. It may very well say that some requirements aren't satisfied when in fact they are. The information I emailed to you supersedes the Advising Report. (However, the Gen Ed part of the Advising Report is probably correct, so you _should_ pay attention to that.)
3. Students who skipped 15b and/or 15c (and took an approved substitute instead) are still required to do the labs, on a pass/fail basis. (But no need to do the 15b lab if you took AP50b or PS12b.)
4. The secondary-field information isn't recorded in the system, so I didn't take that into account in my assessment of any remaining requirements. If you are doing a secondary, be aware that only one course can double count for concentration and secondary. (In contrast, there is unlimited double counting in joint concentrations.)
5. Similarly, for the very few students doing the AB/AM program, the system sometimes doesn't show which courses are bracketed. Be aware that bracketed courses can't count for the undergrad part of the degree.
This email is a reminder about the Physics Department's rule for the 15b and 15c labs. This rule applies to Physics concentrators, Chem/Phys concentrators, and students completing a Physics secondary:
If you skip 15b and/or 15c and satisfy the E&M and/or waves requirement by taking an alternative course (approved by Prof. Georgi or me), then you must still complete the 15b and/or 15c labs at some point, on a pass/fail basis. (However, you don't need to do the 15b lab if you took AP50b or PS12b.)
You can complete the labs in a future semester if you wish, but my recommendation is that you do them at the same time you take the alternative course. (Students in 15b and 15c must of course do the lab when taking the course.)
To schedule your lab time, please email, as soon as possible:
15b: Dr. Carey Witkov (witkov(a)fas.harvard.edu)
15c: TF Kristine Rezai (kristinerezai(a)gmail.com)
Please let me know if you have any questions.
I hope everyone had a fun and relaxing break. A new semester is almost upon us, so here we go...
This email is relevant to the Physics and Chem/Phys concentrators among you (especially the sophomores, since this may be your first time receiving this info). It's a long email, but please pay special attention to the "YOUR TASK" item below.
THE SHORT VERSION:
Email your concentration advisor before classes start, to set up a meeting sometime during the first week of classes. Your advisor will electronically sign your crimson cart (sometimes called "study card").
THE LONG VERSION:
(1) A picture of your Individual Concentrator Advisor should show up in your my.harvard list of advisors. If it doesn't, or if there are any issues (you want to change advisors, etc.), please let me know right away.
(2) All of you automatically have Prof. Georgi (Head Tutor) and me (Co-Head Tutor) as academic advisors. You can talk with us about anything at any time, ranging from course selection, to future plans, to lab work, to concentration requirements. Our office hours are posted at:
www.people.fas.harvard.edu/~hgeorgi<http://www.people.fas.harvard.edu/~hgeorgi>
www.people.fas.harvard.edu/~djmorin/office_hours.htm<http://www.people.fas.harvard.edu/~djmorin/office_hours.htm>
We encourage you to drop by, but email also works.
(3) In addition, we give all of you another faculty advisor. The purpose of this Individual Concentration Advisor is to act as a mentor, and to help you down the Physics or Chem/Phys path. However, concerning concentration requirements, Prof. Georgi and I have seen all the ins and outs and variations on these, so we encourage you to save such questions for us. In short, when talking with your faculty advisor, you can pretend that there are no course numbers or requirements to worry about. Just get some real physics advice about what subjects are good to know, what lab experience is good to have, etc. You can view your faculty advisor in my.harvard.
(4) YOUR TASK: Email your faculty advisor to set up a meeting to discuss your classes and future plans and such. You should send this email sometime before the first day of classes, in case there's a delay in setting up a time. In addition to providing you with advice, your advisor will also provide you with the necessary electronic signature on your crimson cart.
If you'd like to also meet with Prof. Georgi and/or me at the beginning of the semester, by all means stop by, but please do so in addition to (not instead of!) seeing your individual advisor.
NOTE: Occasionally more than one email is needed to set up a meeting with your advisor. All of us let an email slip away now and then. So don't hesitate to send a second email after a day or two if you haven't heard back. Also, ***PLEASE CC THE ADMINISTRATIVE ASSISTANT** for your advisor on your FIRST email, unless you're sure that your advisor will get back to you right away (and definitely cc if a second email is required). This person can be identified by clicking on your advisor on the page:
www.physics.harvard.edu/people/faculty<http://www.physics.harvard.edu/people/faculty>
The administrative assistant is listed below the advisor's photo. If you have trouble getting a response from your advisor, let me know, and we can always switch advisors.
(5) The Physics FAQ page is:
https://www.physics.harvard.edu/undergrad/faqs-concentrators
Please let me know if there's a topic you would like added.
Enjoy the last few days of your break!
DJM
For those of you who are planning to do research this summer, this email contains important information, as does the physics summer-research webpage:
https://www.physics.harvard.edu/undergrad/summer
You can do research either here on campus or elsewhere. For the latter case, there are a zillion REU opportunities listed at:
https://www.nsf.gov/crssprgm/reu/reu_search.jsp
And others are listed on the above summer webpage.
In you want to do research here at Harvard, your main task is to find an advisor by searching the faculty webpage:
https://www.physics.harvard.edu/people/faculty
and sending out emails. (Feel free to look in related departments too.) Once you find a lab (let me know if you have any trouble with this), the funding is guaranteed to work out, with the following caveat: Assuming that the usual number of students apply for Physics Dept funding (pieced together with HCRP and faculty funding), we'll been able to give awards of about $4200 (total from all sources). In the event that the number of students increases significantly, the amount will probably be more like $4000. The standard time span is 10 weeks of full-time work (don't try to add on a summer course).
If you are planning on heading to grad school, my personal recommendation is to do at least one summer of research here, and then a second summer either here or elsewhere. Variety can be nice - it's good to see some other places in the country/world. For the summer you spend here, try to bookend it with at least one semester of research, so that you have a longer total time in the lab.
You should strongly consider applying for PRISE (for research here) and for the Herchel Smith fellowship (for here or elsewhere). See the above summer webpage. These deadlines are early. If you get one of these, then there is no need to apply to Physics or HCRP.
If you're a first-year who is going to be a Physics or Chem/Phys concentrator, then you're certainly eligible for Physics Dept funding (item #3 on the above summer webpage).
Let me know if you have any questions.
DJM
Dear Physics Community,
The next Equity and Inclusion meeting is scheduled today, Friday, January 31st from 2-3:00 pm in Lyman 425. The meeting agenda follows below.
Update
* Department of Physics Statement of Values
Discussion
* Respect is a Part of Research Conference
* Department of Physics Climate Survey
Open Forum
* All
Thanks,
Felice
Dear Students,
I am ready to print our new Physics Department Concentrator Photoboards for our photo display area. If I may place your Harvard photo on this board and your photo is blocked, please unblock through PeopleSoft, so I may attach to our Photoboards.
Thank you
Carol
[cid:image003.png@01D5D825.C7556670]
Carol Davis
Undergraduate and Graduate Student Coordinator
Department of Physics
Harvard University
17 Oxford Street
Cambridge, MA 02138
617-496-1041 (tel)
617-495-0416 (fax)
From: Academic Resource Center
Sent: Thursday, January 30, 2020 11:48 AM
To: Academic Resource Center <academicresourcecenter(a)harvard.edu<mailto:academicresourcecenter@harvard.edu>>
Subject: Please Share This Opportunity with your Students-Welcome to the ARC: Set Your Semester Up For Success
Good Morning,
We are writing to you from the Academic Resource Center to tell you about our spring kickoff event open to all students. Please see the attached flyer - Welcome to the ARC: Set Your Semester Up For Success.
We'll be offering information on the ARC, accountability groups, and spring semester prep, interactive activities, food from Felipe's, and more! All students are invited to attend on Friday, February 7 from 2:00-4:00 pm. Registration is open on our website: tinyurl.com/ARCWelcome
Thank you for sharing this information with your students. Please don't hesitate to contact us with any questions.
All the Best,
The ARC Support Team
Harvard Science Book Talk:
Thursday, January 30, 2020
[https://gallery.mailchimp.com/2a42f9e6c5264bb277175db04/images/16b62893-e55…]
Donna Jackson Nakazawa
in conversation with Dr. Beth Stevens
The Angel and the Assassin: The Tiny Brain Cell That Changed The Course of Medicine
In her new book, The Angel and the Assassin, Donna Jackson Nakazawa tells one of the most paradigm-shifting stories in the history of medicine—the tale of a tiny, powerful, enigmatic cell, microglia, in determining brain health, and their potential to transform human well-being, including breathtaking discoveries by MacArthur Fellow Beth Stevens, Ph.D, at Harvard, who first unveiled the true role of these long-ignored cells. Carey Goldberg, host of CommonHealth, WBUR, Boston, will moderate the conversation between Ms. Jackson Nakazawa and Dr. Stevens.
Lecture @ 6:00 PM
Lecture Hall C
Book Signing @ 7:15 PM
Cabot Library
Harvard Science Center
One Oxford Street
Cambridge, MA
[Twitter]<https://urldefense.proofpoint.com/v2/url?u=http-3A__www.twitter.com_Harvard…>
To view previously recorded lectures or see schedule of future talks: Harvard Science Book Talks<https://science.fas.harvard.edu/book-talks>
For more information and to be notified about future events, please contact: science_lectures(a)fas.harvard.edu<mailto:science_lectures@fas.harvard.edu>.
PLEASE RSVP!!! Thank you!
LOCATION: Jefferson 250
TIME: Monday (February 3, 2020), 12pm
RSVP: By Friday, January 31, 2020, meat or vegetarian
Dear SPS and Graduate Students,
We are happy to announce that this coming Monday, Professor Immanuel Bloch, Max Planck Institute (https://www.quantum-munich.de/104554/bloch-immanuel-prof-dr) will be our colloquium speaker and the title of his talk will be "Engineered Ultracold Quantum Matter - From Quantum Simulations to Novel Quantum Light-Atom Interfaces". For our graduate students and those who are new to SPS, the Physics Department invites guest speakers and top scientists to give a colloquium talk every Monday afternoon, and you can find more details on the department website http://www.physics.harvard.edu/events/. You can get a sense of what the talk is about from the abstract below.
We will continue in the tradition of inviting the colloquium guest speaker for a conversation with our undergrads and graduate students over lunch in our Undergrad Study on the 2nd floor of Jefferson, room 251, so please come and join in with our exciting guest! The date of the luncheon will be, Monday, February 3rd, 2020 at 12:00 noon. SPS invites the speaker to meet up with a small group of undergrads and graduate students over lunch so that the speaker can learn something about the physics students here, and the students can get to know the speaker better, learn more about his/her research/life, and about physics programs at other universities. It's also a great way for fellow Physics students to hang out.
We would like to show our guests that our students are very much interested in their research, so we would like to have at least 10 RSVP's for this last lunch on Monday. So, please send your RSVP to me and indicate your dietary preference (meat or vegetarian) by Friday, 12:00 noon. I look forward to hearing from you!
Abstract:
More than 30 years ago, Richard Feynman outlined his vision of a quantum simulator for carrying out complex calculations on physical problems. Today, his dream isa reality in laboratories around the world using a variety of different physical implementations. Ultracold atoms are one of the most powerful systems in this regard, allowing us to explore large systems with single atom resolution and control. In my talk, I will present recent experiments based on our fermionic quantum gas microscope, in which we can detect both charge and spin degrees of freedom simultaneously, thereby gaining maximum information on the intricate interplay between the two in the paradigmatic Hubbard model. For the first time, we thereby have access to directly probe non-local 'hidden' correlation properties of quantum matter and to explore its real space resolved dynamical features far from equilibrium. I will also discuss our most recent experiments on realizing bi-layer Fermi Hubbard system with tunable couplings and how such a setting can be used to realize a novel universal two-dimensional spin and charge resolved detection for quantum gas microscopy experiments. Finally, I will report on our experiment employing subradiant subwavelength ordered atomic arrays to realize novel and efficient atom-light interfaces atoptical wavelengths. I will show, how a spatially structured single mono-layer of a few hundreds of atoms can act as an efficient and switchable subradiant optical mirror.
(His talk will be given in Jefferson 250, February 3rd, 4:30p - 5:30pm,
tea served in Jefferson 450 @ 3:45 pm)
Please note new time for tea and colloquium!!!
PLEASE BRING YOUR OWN MUG
[cid:image001.png@01D5D5D3.A7B1A2B0]
Carol Davis
Undergraduate and Graduate Student Coordinator
Department of Physics
Harvard University
17 Oxford Street
Cambridge, MA 02138
617-496-1041 (tel)
617-495-0416 (fax)
Harvard Physics Colloquium
Monday, 2/3/20
4:30 PM - 5:30 PM in Jefferson 250
Tea served in Jefferson 450 @ 3:45 PM – Please bring your own mug if you have one
immanuel bloch
MAX PLANCK INSTITUTE
Engineered Ultracold Quantum Matter - From Quantum Simulations to Novel Quantum Light-Atom Interfaces<https://www.physics.harvard.edu/colloq>
More than 30 years ago, Richard Feynman outlined his vision of a quantum simulator for carrying out complex calculations on physical problems. Today, his dream is a reality in laboratories around the world using a variety of different physical implementations. Ultracold atoms are one of the most powerful systems in this regard, allowing us to explore large systems with single atom resolution and control. In my talk, I will present recent experiments based on our fermionic quantum gas microscope, in which we can detect both charge and spin degrees of freedom simultaneously, thereby gaining maximum information on the intricate interplay between the two in the paradigmatic Hubbard model. For the first time, we thereby have access to directly probe non-local ‘hidden’ correlation properties of quantum matter and to explore its real space resolved dynamical features far from equilibrium. I will also discuss our most recent experiments on realising bi-layer Fermi Hubbard system with tunable couplings and how such a setting can be used to realise a novel universal two-dimensional spin and charge resolved detection for quantum gas microscopy experiments. Finally, I will report on our experiment employing subradiant subwavelength ordered atomic arrays to realise novel and efficient atom-light interfaces at optical wavelengths. I will show, how a spatially structured single mono-layer of a few hundreds of atoms can act as an efficient and switchable subradiant optical mirror.
Stephanie Clayman (she, her, hers)
Reception
Harvard University Physics Department
Jefferson 360, 17 Oxford Street
Cambridge, MA 02138
617-495-2872