Can a PhD in experimental physics lead to a career in banking?

In summary, the conversation discusses the possibility of physicists with different backgrounds, such as theoretical or experimental PhDs, moving on to quantitative positions in the banking industry. It is noted that while those with a background in high-energy or astro-physics may have relevant skills in programming and data analysis, those with backgrounds in "softer" topics such as quantum optics may have less relevant skills. However, it is possible for individuals in these fields to still find jobs in finance, though the current job market may make it more difficult.
  • #1
Niles
1,866
0
Hi

It is not seldom to hear about a physicist who did his/her PhD in theoretical high-energy physics/astro-physics/solid state, who then move on to a rather quantitative position in the industry, e.g. in a bank. I hear the same about people that did an experimental PhD, where statistics and programming were used extensively (experimental high-energy physics).

But what about the "soft" topics, such as experimental atomic physics, quantum optics and such. Can they also move on to a quantitative position in the banking industry, or is it more common for them to "settle" with industrial experimental work? Do people know of any statistics for this, or have any experience/opinions?
 
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  • #2
If you want to work in a bank take accounting and statistics classes if you want to be a physicist then take physics classes. sorry I don't have any stats for this
 
  • #3
akdude1 said:
If you want to work in a bank take accounting and statistics classes if you want to be a physicist then take physics classes. sorry I don't have any stats for this

He was asking about working as a quant. It is extremely unlikely that you would be able to find a job as a quant if you study accounting, and statistics is probably not ideal either. The "traditional" background for a quant would be a PhD in physics or maths.

To answer the OP. I don't know for sure, but I am under the impression that the reason high-energy/astro PhDs can find jobs as quants is that many of them spend a LOT of time programming and analyzing data. After all, the actual experiments (observation, time at an accelerator etc) might only take up a few days per year and the rest of the time is spent sorting through vast amounts of data.

A PhD in say quantum optics, experimental solid-state etc. is very different and you would spend a lot more time doing actual experiments (and a lot of hands-on work), and you might not even have to do any advanced data analysis. Hence, you are less likely to pick up skills relevant to being a quant. I know of a few people who have moved from solid-state to finance, but that was several years ago when the job market for quants was much better than it is now.
 

1. What is a PhD in experimental physics?

A PhD in experimental physics is a postgraduate degree that focuses on the study and research of the fundamental laws and principles of nature through experimentation and observation. It involves conducting experiments, analyzing data, and developing theories to explain physical phenomena.

2. What are the requirements for a PhD in experimental physics?

The requirements for a PhD in experimental physics may vary depending on the institution, but generally, applicants must have a bachelor's or master's degree in physics or a related field. They must also have a strong background in mathematics, research experience, and good academic standing. Some programs may also require GRE scores and letters of recommendation.

3. How long does it take to complete a PhD in experimental physics?

The average time to complete a PhD in experimental physics is around 5-6 years, but this can vary depending on the individual's research progress and the program's specific requirements. Some students may take longer if they are working on a particularly complex or time-consuming research project.

4. What career opportunities are available with a PhD in experimental physics?

A PhD in experimental physics can lead to a variety of career opportunities in research and academia. Many graduates go on to work as researchers in government or private laboratories, while others may pursue careers as professors or postdoctoral researchers in universities. Some may also find opportunities in industries such as aerospace, energy, or technology.

5. What skills are necessary for success in a PhD in experimental physics?

To be successful in a PhD in experimental physics, one must have a strong foundation in physics and mathematics, critical thinking and problem-solving skills, and the ability to design and conduct experiments. Other important skills include data analysis, communication and writing skills, and the ability to work independently and collaboratively with a research team.

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