Actually, I don't think that will work at all.
L1 is DC shorting the base and collector,
The combined inductance of L2 and L3 depends on their separation and orientation,
The total possible DC current is restricted to 0.5mA by R1,
Even if R1 was moved to a more sensible position between L1 and R2, the emitter current is still limited to 60uA by R3.
I'm not even sure it's either a true Colpitts or Clapp configuration either!
I studied the circuit off Electronic Principles (7th Ed) by Albert Malvino from chapter 23 which is about oscillators. If you want a scanned proof, be my guest.
However, I don't mean to be rude. It's just that I am aware of how incredible, amazing and yet so profoundly advanced the field of Radio Frequencies is; the starting point and the intended direction is overtly hard to navigate.
On my behalf here are the following books I studied:
> Kybett All New Electronics Self Teaching Guide (3rd Edition)
> Giblisco Electronics Demystified
> Practical Electronics for Inventors
> Floyd- Principle of Electric Circuits CC (8th Edition)
> Bertrand Ron' Online Electronics School notes
> Basic Radio- The Essentials of Electron Tubes & their Circuits
> HeathKit Educational Series- Basic Radio (Part 1 & Part 2)
> Electronic Principles (7th Edition)- Malvino
Although I am aware of the amount of books, research work, articles, journals and papers have been written on the themes of RF circuits & design after Heinrich Hertz & Nikola Tesla. But the general feeling I have found is confusion. The more books I read the more oblivious I feel, and thus the feeling of neverending-ness prevails.
Therefore on my accord I planned out to not only make a Transmitter & Receiver myself but make it simplified. So even if I have to mentor a 5 year old, he would start from a basic pulse Transmitter & Receiver, graduating upto audio Transmissions and thus charter his own path, leading upto maybe radars or whatever.
Hence I would have to practice what I would preach and education is the real idea behind all of the effort.
A general fact I observed even after looking up all the Transmitter & Receiver (mostly audio all over the internet, morse pulses or RC car circuits are a jem) circuits over the internet was; the assembly of the components by parts would take 1 hour. What's more philosophically interesting is, if someone knows the right values with the right parts, the circuit works. Theory is just the conception which produces all the desired values.
Coming back to the orignal theme; I have drawn Transistor Load Lines (AC & DC), calculated currents & voltages, power and impedances of the circuit I am trying to build. Now of course if I am on the verge of inventing something I wouldnt be on the forums now would I. I would appreciate help at least in the form of the important math formulae that effect the desired results of the circuit; what ever I seem to have missed out.
My Confession is, I have not indulged in Bode Plotting, Smith Chart or any of the high end precision calculations.
I would be pleased if someone guides me how to get this transmitter working. For sometimes, Experience superseeds Time.