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The use of capability maturity model integration (CMMI) on its own can be problematic for the organisation because it does not provide a roadmap to implementation or identification of key process improvement areas, but instead only provides the goals for each level of implementation. Addition of another framework such as control objectives for information and related technology (CoBIT) can add the required operational data, but poses some unique challenges for implementation. However, the integration of Information Technology Infrastructure Library (ITIL), CoBIT, and ISO/IEC 22007 provides a roadmap to the integration of CMMI and CoBIT. The purpose of this paper is to discuss this co‐implementation and integration of the two frameworks, as well as the underlying framework of a new proposed integration model.

A literature review approach is used to address issues that have evolved from the empirical literature regarding the integration of CMMI and ITIL with other standards and determining whether this approach can be applied to the integration of CMMI and CoBIT as well. This literature review also provides insight into roadblocks to the implementation and structural improvements for CMMI.

The literature review demonstrated that the integration of CMMI and CoBIT could potentially be performed using the same techniques used in integrating ITIL and CoBIT, which provides a valuable guideline for further research into this area. However, further work will be required in order to determine the specifics of integration.

The paper adds to the existing literature by discussing the integration of CMMI and CoBIT and examining how these two frameworks can work together in order to create the basis for a new integration model.

This study aims to fabricate and manipulate ensemble spin of negative nitrogen-vacancy (NV⁻) centres optimally for future solid atomic magnetometers/gyroscope. Parameters for sample preparation most related to magnetometers/gyroscope are, in particular, the concentration and homogeneity of the NV⁻ centres, the parameters’ microwave antenna of resonance frequency and the strength of the microwave on NV⁻ centres. Besides, the abundance of other impurities such as neutral NV centres (NV⁰) and substitutional nitrogen in the lattice also plays a critical role in magnetic sensing.

The authors succeeded in fabricating the assembly of NV centres in diamond and they determined its concentration of (2-3) × 10¹⁶ cm⁻³ with irradiation followed by annealing under a high temperature condition. They explored a novel magnetic resonance approach to detect the weak magnetic fields that takes advantage of the solid-state electron ensemble spin of NV⁻ centres in diamond. In particular, the authors set up a magnetic sensor on the basis of the assembly of NV centres. They succeeded in fabricating the assembly of NV centres in diamond and determined its concentration. They also clarified the magnetic field intensity measured at different positions along the antenna with different lengths, and they found the optimal position where the signal of the magnetic field reaches the maximum.

The authors mainly reported preparation, initialization, manipulation and measurement of the ensemble spin of the NV centres in diamond using optical excitation and microwave radiation methods with variation of the external magnetic field. They determined the optimal parameters of irradiation and annealing to generate the ensemble NV centres, and a concentration of NV⁻ centres as high as 10¹⁶ cm⁻³ in diamond was obtained. In addition, they found that sensitivity of the magnetometer using this method can reach as low as 5.22 µT/Hz currently.

This research can shed light on the development of an atomic magnetometer and a gyroscope on the basis of the ensemble spin of NV centres in diamond.

High concentration spin of NV⁻ in diamond is one of the advantages compared with that of the atomic vapor cells, because it can obtain a higher concentration. When increasing the spin concentration, the spin signal is easy to detect, and macro-atomic spin magnetometer become possible. This research is the first step for solid atomic magnetometers with high spin density and high sensitivity potentially with further optimization. It has a wide range of applications from fundamental physics tests, sensor applications and navigation to detection of NMR signals.

As has been pointed out, in this research, the authors mainly worked on fabricating NV⁻ centres with high concentration (10¹⁵-10¹⁶ cm⁻³) in diamond by using optimal irradiation and annealing processes, and they quantitatively defined the NV⁻ concentration, which is important for the design of higher concentration processes in the magnetometer and gyroscope. Until now, few groups can directly define the NV⁻ concentration. Besides, the authors optimized the microwave antenna parameters experimentally and explored the dependence between the splitting of the magnetic resonance and the magnetic fields, which dictated the minimum detectable magnetic field.