As for the first part of your question - Assembly is about as low level as programming gets. It directly translates to machine code - there isn't a lower level than that. As for what is used by the professionals (ie. at Intel), it can vary by situation. For example, someone developing test-bench code for a new chip will write assembly/machine code to exercise precisely the instructions & registers they intend to test. Yet, many engineers are comforatble relying on C when employed on a mature architecture where C compilers have been well validated. The same goes for other languages - its a matter of stability/maturity and applicability. Compiled C can always be disassembled to analyze the generated assembly code. Most people don't analyze their code this deeply, but it can certainly be done.
As for the second part of your question - there is no definitive answer to this question. Many considerations may factor into the choice of a programming language for a given architecture. This choice often concerns far more than the architecture itself and performance is often not the only important characteristic of a language. Interpreted languages are inherently less performant than compiled languages - C will generally outperform python - some operations more than others. On a microcontroller, these differences may be more stark than on a higher performance microprocessor. Sometimes processing power is abundant and sometimes it is not. So all that said, most importantly you should consider your application, your processing platform and your knowledge and the characteristics of a language prior to choosing a language to develop your application in.