The fundamental series is a set of

spectral line A spectral line is a dark or bright line in an otherwise uniform and continuous spectrum, resulting from emission or absorption of light in a narrow frequency range, compared with the nearby frequencies. Spectral lines are often used to iden ...

s in a set caused by transition between d and f orbitals in atoms. Originally the series was discovered in the infrared by Fowler and independently by

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. This resulted in the name Bergmann series used for such a set of lines in a spectrum. However the name was changed as Bergmann also discovered other series of lines. And other discoverers also established other such series. They became known as the fundamental series. Bergmann observed lithium at 5347 cm⁻¹, sodium at 5416 cm⁻¹ potassium at 6592 cm⁻¹. Bergmann observed that the lines in the series in the caesium spectrum were double. His discovery was announced in ''Contributions to the Knowledge of the Infra-Red Emission Spectra of the Alkalies'', Jena 1907.

Carl Runge Carl David Tolmé Runge (; 30 August 1856 – 3 January 1927) was a German mathematician, physicist, and spectroscopist. He was co-developer and co- eponym of the Runge–Kutta method (German pronunciation: ), in the field of what is today know ...

called this series the "new series". He predicted that the lines of potassium and rubidium would be in pairs. He expressed the frequencies of the series lines by a formula and predicted a connection of the series limit to the other known series. In 1909 W. M. Hicks produced approximate formulas for the various series and noticed that this series had a simpler formula than the others and thus called it the "fundamental series" and used the letter F. The formula that more resembled the hydrogen spectrum calculations was because of a smaller

quantum defect The term quantum defect refers to two concepts: energy loss in lasers and energy levels in alkali elements. Both deal with quantum systems where matter interacts with light. In laser science In laser science, the term "quantum defect" refers to t ...

. There is no physical basis to call this fundamental. The fundamental series was described as badly-named. It is the last spectroscopic series to have a special designation. The next series involving transitions between F and G subshells is known as the FG series. Frequencies of the lines in the series are given by this formula:

\nu = \frac-\frac \text m=4,5,6,...,

''R'' is the

Rydberg correction The term quantum defect refers to two concepts: energy loss in lasers and energy levels in alkali elements. Both deal with quantum systems where matter interacts with light. In laser science In laser science, the term "quantum defect" refers to t ...

T_=\frac

is the series limit, represented by ''3D'', and

\frac

is represented by ''mF''. A shortened formula is then given by

\nu=3D-mF

with values of m being integers from 4 upwards. The two numbers separated by the "−" are called terms, that represent the energy level of an atom. The limit of the fundamental series is the same as the 3D level. The terms can have different designations, mF for single line systems, mΦ for doublets and mf for triplets. Lines in the fundamental series are split into compound doublets, due to the D and F subshells having different spin possibilities. The splitting of the D subshell is very small and that of the F subshell even less so, so the fine structure in the fundamental series is harder to resolve than that in the

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diffuse series The diffuse series is a series of spectral lines in the atomic emission spectrum caused when electrons jump between the lowest p orbital and d orbitals of an atom. The total orbital angular momentum changes between 1 and 2. The spectral lines inclu ...

Lithium

The quantum defect for lithium is 0.

Sodium

The fundamental series lines for

sodium Sodium is a chemical element with the symbol Na (from Latin ''natrium'') and atomic number 11. It is a soft, silvery-white, highly reactive metal. Sodium is an alkali metal, being in group 1 of the periodic table. Its only stable iso ...

appear in the near infrared.

Potassium

The fundamental series lines for

potassium Potassium is the chemical element with the symbol K (from Neo-Latin ''kalium'') and atomic number19. Potassium is a silvery-white metal that is soft enough to be cut with a knife with little force. Potassium metal reacts rapidly with atmosph ...

appear in the near infrared.

Rubidium

The fundamental series lines for rubidium appear in the near infrared. The valence electron moves from the 4''d'' level as the 3''d'' is contained in an inner shell. They were observed by R von Lamb. Relevant energy levels are 4''p''⁶4''d'' ''j''=5/2 19,355.282 cm⁻¹ and ''j''=3/2 19,355.623 cm⁻¹, and the first ''f'' levels at 4''p''⁶4''f'' ''j''=5/2 26,792.185 cm⁻¹ and ''j''=7/2 26,792.169 cm⁻¹.

Caesium

References

{{Reflist Spectroscopy Atomic physics Emission spectroscopy