Add to ORKGIn the supersymmetric SO(10) models, the doublet-triplet splitting problem can be solved through the Dimopoulos-Wilczek mechanism. This mechanism is extended in the non-renormalizable version. Improvement on the realistic model is also made.Comment: 9 page
We propose a mechanism for sufficient suppression of dimension-5 operators for proton decay in a sup...
The standard model (SM) of elementary particles has been established for more than 30 years and test...
Using the binary tetrahedral group $T^{'}$, the three angles and phase of the quark CKM mixing matri...
We propose a renormalizable supersymmetric SO(10) model where the doublet-triplet splitting problem ...
A realistic grand unified model has never been constructed in the literature due to three major diff...
We present a new mechanism for doublet-triplet splitting in supersymmetric SO(10) models using a mis...
AbstractWe present a new possibility for achieving doublet–triplet splitting naturally in supersymme...
We propose a renormalizable supersymmetric SO (110) model where the doublet-triplet splitting proble...
We present a new possibility for achieving doublet-triplet splitting naturally in supersymmetric SO(...
We construct a supersymmetric SO(10) model, where natural doublet-triplet splitting implemented via ...
We propose a mechanism to suppress proton decay induced by dimension-5 operators in a supersymmetric...
AbstractThis Letter demonstrates that, as in flipped SU(5) models, doublet-triplet splitting is acco...
We discuss how the double missing partner mechanism solution to the doublet-triplet splitting proble...
A non-minimal, semi-realistic version of supersymmetric SU(5) grand unified theory is discussed. The...
In this article we review proton decay in the supersymmetric grand unified models
We propose a mechanism for sufficient suppression of dimension-5 operators for proton decay in a sup...
The standard model (SM) of elementary particles has been established for more than 30 years and test...
Using the binary tetrahedral group $T^{'}$, the three angles and phase of the quark CKM mixing matri...
We propose a renormalizable supersymmetric SO(10) model where the doublet-triplet splitting problem ...
A realistic grand unified model has never been constructed in the literature due to three major diff...
We present a new mechanism for doublet-triplet splitting in supersymmetric SO(10) models using a mis...
AbstractWe present a new possibility for achieving doublet–triplet splitting naturally in supersymme...
We propose a renormalizable supersymmetric SO (110) model where the doublet-triplet splitting proble...
We present a new possibility for achieving doublet-triplet splitting naturally in supersymmetric SO(...
We construct a supersymmetric SO(10) model, where natural doublet-triplet splitting implemented via ...
We propose a mechanism to suppress proton decay induced by dimension-5 operators in a supersymmetric...
AbstractThis Letter demonstrates that, as in flipped SU(5) models, doublet-triplet splitting is acco...
We discuss how the double missing partner mechanism solution to the doublet-triplet splitting proble...
A non-minimal, semi-realistic version of supersymmetric SU(5) grand unified theory is discussed. The...
In this article we review proton decay in the supersymmetric grand unified models
We propose a mechanism for sufficient suppression of dimension-5 operators for proton decay in a sup...
The standard model (SM) of elementary particles has been established for more than 30 years and test...
Using the binary tetrahedral group $T^{'}$, the three angles and phase of the quark CKM mixing matri...