Physics Is a Career in Quantum Computing Viable for Non-Ivy League Graduates?

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SUMMARY

A career in quantum computing is viable for non-Ivy League graduates, as demonstrated by individuals successfully entering top PhD programs from lesser-known institutions. Key factors for success include maintaining a strong GPA in programming and physics, particularly in quantum mechanics, and gaining research experience in relevant fields. The quantum computing landscape is diverse, encompassing various areas such as superconducting quantum computing and trapped ion systems, necessitating a clear focus on specific interests within the field. Versatility in both physics and computer science enhances employability and research opportunities.

PREREQUISITES
  • Strong understanding of quantum mechanics
  • Proficiency in programming languages relevant to quantum computing
  • Research experience in physics or computer science
  • Familiarity with different quantum computing implementations, such as superconducting and trapped ion systems
NEXT STEPS
  • Research quantum computing algorithms and their hardware agnosticism
  • Explore superconducting quantum computing techniques, including cryogenics and microfabrication
  • Investigate trapped ion quantum computing, focusing on ultra-high vacuum and optics/laser applications
  • Identify and enroll in advanced courses in quantum mechanics and computational physics
USEFUL FOR

Undergraduate physics students, aspiring quantum computing researchers, and professionals seeking to transition into the quantum computing field.

Ananthan9470
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Hi. I am an undergraduate physics student and I really like the field of quantum computing. Can someone please tell me how good are the opportunities to work and research in this field? As I understand, there are not many places that do research in quantum computers as compared to something like astrophysics or nano-tech. Is this accurate? If you are not some Harvard or MIT graduate, what are your chances of making in this field? And what are the courses that I should focus on if I want to continue this path? Any help will be appreciated.
 
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My school has a developing physics department and is no where to the level of MIT or Harvard. A classmate of mine was able to get to a top 5 PhD program from a college that has little recognition of the physics department (you could say my school is more of a business school). He majored in physics and computer science, did research with two professors: one being a CS professor and another being a plasma physicist. He's getting his PhD now and seems to be doing just fine for himself, so no.. you don't need MIT or Harvard (though they never hurt obviously). Show an impressive GPA in programming and physics, particularly quantum mechanics, and show your versatility being both a physicist and a computer scientist through research and you'll be in great shape. Never let a lack of reputation from your current school get in the way of your dreams. Even if you don't make it, you've probably gained enough skills to be a pretty good engineer which is how I found myself in optical engineering and LOVE it.
 
You have to be much more specific. The field of "Quantum computing" encompasses many, many different areas of physics. Not only because of the (usual) theory vs. experiment, but also because so many different ways of implementing QC are are currently being investigated, There is huge difference in what you would be doing on a day-to-day basis between say working on a superconducting QC (cryogenics, microfabrication etc) and one based on trapped ions (ultra high vacuum and optics/laser).

Hence, unless you are interested in algorithms (which tend to be agnostic when it comes to the hardware) you are better off trying to figure out which field of physics interests you, and then look at possible QC implementation in that field.
 
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Thread 'Career Prospects (outside of academia)'

For some background, I'm currently a 3rd year physics major with an astro specialization studying in Canada, and as undergraduates are want to do I'm regularly evaluating my career prospects down the road. I also plan on pursuing grad school when I've completed my degree. It might just be my anxiety acting up a little, but with a lot of the government funding drying up for public science research broadly in the US, the 'industry' everyone keeps talking about when questions like this are...
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